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20170925Utah_DPU Gateway_West_Phase2_IPC_Format_v5_App1-5+21.pdf
Energy Gateway Project -Stage 1 Bridger /Anticline West (New Path 19) Path C (New Path 20)Southbound Aeolus West (New Path) Phase 2 Path Rating Report Submitted by WECC Phase 2 -Bridger Area Study Group Date; November 24,2010 Revision 5.0 Executive Summary 5 1.Introduction 6 1.1.Project Description 6 1.2.Plan of Service 6 1.3.Planned Operating Date 6 2.Transfer Capability 6 3.Study Methods and Standards 7 3.1.Steady-State Case Stressing 7 3.2.Post Transient 7 3.3.Reactive Margin 8 3.4.Transient Stability 8 3.5.Generation Drop via Remedial Action Schemes (RAS)8 4.Path Definitions 8 4.1.Aeolus West (New)8 4.2.Aeolus South (New)9 4.3.Bridger West 345 kV (Existing)9 4.4.Bridger /Anticline West (Modified)9 4.5.Path C (Existing -After completion of the Populus -Terminal Project)9 4.6.Monument -Naughton (InternalPath)10 4.7.West of Rock Springs /Firehole (InternalPath)10 5.Project Base Case Modifications 10 5.1.SVC Tie Line Modeling 10 5.2.Line and Transformer Rating Conflicts 10 5.3.Phase Shifter Tap Steps 10 5.4.SVDs to Shunt Conversions 10 5.5.Other System Modeling Changes /Corrections 10 5.6.PacifiCorp System Updates /Corrections 11 6.Path Studies 11 6.1.Aeolus West vs.Aeolus South 11 6.1.1.Base Case Development 11 6.1.2.Post-Transient Analysis 12 6.1.3.Reactive Margin Analysis 13 6.1.4.Transient Stability Analysis 13 6.2.Aeolus West vs.Bonanza West 14 6.2.1.Base Case Development 14 6.2.2.Post-Transient Analysis 14 6.2.3.Reactive Margin Analysis 15 6.2.4.Transient Stability Analysis 15 6.3.Aeolus West vs.Tot la 16 6.3.1.Base Case Development 16 6.3.2.Post-Transient Analysis 16 6.3.3.Reactive Margin Analysis 18 6.3.4.Transient Stability Analysis 18 6.4.Bridger /Anticline West vs.Aeolus South 19 6.4.1.Base Case Development 19 11/24/2010 Gateway West Project -Bridger Study Area Page 2 of 150 WECC Phase 2 Project Rating Report 6.4.2.Post-Transient Analysis 19 6.4.3.Reactive Margin Analysis 20 6.4.4.Transient Stability Analysis 20 6.5.Bridger /Anticline West vs.Path C Southbound 21 6.5.1.Base Case Development 21 6.5.2.Post-Transient Analysis 21 6.5.3.Reactive Margin Analysis 22 6.5.4.Transient Stability Analysis 23 6.6.Bridger /Anticline West vs.Bonanza West 23 6.6.1.Base Case Development 23 6.6.2.Post-Transient Analysis 23 6.6.3.Reactive Margin Analysis 24 6.6.4.Transient Stability Analysis 24 6.7.Bridger /Anticline West vs.Idaho -Montana (Path 18)25 6.7.1.Base Case Development 25 6.7.2.Post-Transient Analysis 25 6.7.3.Reactive Margin Analysis 26 6.7.4.Transient Stability Analysis 27 6.8.Bridger /Anticline West vs.Monument -Naughton 27 6.8.1.Base Case Development 27 6.8.2.Post-Transient Analysis 27 6.8.3.Reactive Margin Analysis 29 6.8.4.Transient Stability Analysis 29 6.9.Bridger /Anticline West vs.Rock Springs /Firehole 29 6.9.1.Post-Transient Analysis 29 6.9.2.Reactive Margin Analysis 31 6.9.3.Transient Stability Analysis 31 6.10.Bridger /Anticline West with the MSTI Project 31 6.10.1.Base Case Development 31 6.10.2.Post-Transient Analysis 31 6.10.3.Reactive Margin Analysis 32 6.10.4.Transient Stability Analysis 33 6.11.Path C Southboundvs.Idaho -Montana (Path 18)33 6.11.1.Base Case Development 33 6.11.2.Post-Transient Analysis 33 6.11.3.Reactive Margin Analysis 35 6.11.4.Transient Stability Analysis 35 6.12.Path C Southboundvs.Bonanza West 35 6.12.1.Base Case Development 35 6.12.2.Post-Transient Analysis 36 6.12.3.Reactive Margin Analysis 38 6.12.4.Transient Stability Analysis 38 6.13.Path C Southboundwith the MSTI Project 39 6.13.1.Base Case Development 39 6.13.2.Post-Transient Analysis 39 6.13.3.Reactive Margin Analysis 40 6.13.4.Transient Stability Analysis 40 11/24/2010 Gateway West Project -Bridger Study Area Page 3 of 150 WECC Phase 2 Project Rating Report 6.14.Path C Southboundvs.Monument -Naughton 41 6.14.1.Base Case Development 41 6.14.2.Post-Transient Analysis 41 6.14.3.Reactive Margin Analysis 42 6.14.4.Transient Stability Analysis 42 6.15.Path C Southboundvs.Rock Springs -Firehole 42 6.15.1.Base Case Development 42 6.15.2.Post-Transient Analysis 43 6.15.3.Reactive Margin Analysis 44 6.15.4.Transient Stability Analysis 44 7.Contingencies Studied 44 8.Study Conclusions /Recommendations 45 Appendix1 -Post-Transient and Dynamic ContingencyLists 48 Appendix2 -Nomograms 52 Appendix3 -Post-transient Results Tables 67 Appendix4 -Dynamic StabilityResults Tables 90 Appendix5 -GatewayWest Study Plan 110 Appendix21 150 TSS ApprovedExceptions to the NERC/WECC Standards 150 Appendix21 -Pages C20 -C23 from TSS Accepted Exceptions to NERC/WECC Standards APPENDIX FILES;Located on Idaho Power's FTP Site at;https:\\fileexch.idahopower.com Appendix 6-1;See file;Appendix_6-l.pdf Aeolus West vs.Aeolus South -Base Case &PT Plots Appendix 6-2;See file;Appendix_6-2.pdf Aeolus West vs.Aeolus South -Dynamics plots Appendix 7-1;See file;Appendix_7-1.pdf Aeolus West vs.Bonanza West -Base Case &PT Plots Appendix 7-2;See file;Appendix_7-2.pdf Aeolus West vs.Bonanza West-Dynamics plots Appendix 8-1;See file;Appendix_8-l.pdf Aeolus West vs.Tot la -Base Case &PT Plots Appendix 8-2;See file;Appendix_8-2.pdf Aeolus West vs.Tot la-Dynamics plots Appendix 9-1;See file;Appendix_9-l.pdf Bridger West vs.Aeolus South -Base Case &PT Plots Appendix 9-2;See file;Appendix_9-l.pdf Bridger West vs.Aeolus South-Dynamics plots Appendix 10-1;See file;Appendix_10-1.pdf Bridger West vs.Path C South -Base Case &PT Plots Appendix 10-2;See file;Appendix_10-2.pdf Bridger West vs.Path C South-Dynamics plots Appendix 11-1;See file;Appendix_1l-1.pdf Bridger West vs.Bonanza West -Base Case &PT Plots Appendix 11-2;See file;Appendix_l l-2.pdf Bridger West vs.Bonanza West -Dynamics plots Appendix 12-1;See file;Appendix_12-1.pdf Bridger West vs.Idaho -Montana (18)Base Case+PT Plots Appendix 12-2;See file;Appendix_12-2.pdf Bridger West vs.Idaho -Montana (18)-Dynamics plots Appendix 13-1;See file;Appendix_13-1.pdf Bridger West vs.Monument-Naughton Base Case+PTPlots Appendix 13-2;See file;Appendix_13-2.pdf Bridger West vs.Monument -Naughton-Dynamics plots Appendix 14-1;See file;Appendix_14-1.pdf Bridger West vs.Rock Spgs /FH-Base Case &PT Plots Appendix 14-2;See file;Appendix_14-2.pdf Bridger West vs.Rock Spgs /Firehole-Dynamics plots Appendix 15-1;See file;Appendix_15-1.pdf Bridger West vs.MSTI -Base Case &PT Plots Appendix 15-2;See file;Appendix_15-2.pdf Bridger West vs.MSTI-Dynamics plots Appendix 16-1;See file;Appendix_16-1.pdf Path C South vs.Idaho-Montana (18)Base Case+PT Plots Appendix 16-2;See file;Appendix_16-2.pdf Path C South vs.Idaho -Montana (18)-Dynamics plots Appendix 17-1;See file;Appendix_17-1.pdf Path C South vs.Bonanza West-Base Case &PT Plots Appendix 17-2;See file;Appendix_17-2.pdf Path C South vs.Bonanza West-Dynamics plots Appendix 18-1;See file;Appendix_18-1.pdf Path C South vs.MSTI-Base Case &PT Plots Appendix 18-2;See file;Appendix_18-2.pdf Path C South vs.MSTI-Dynamics plots Appendix 19-1;See file;Appendix_19-1.pdf Path C South vs.Monument-Naughtn-Base Case+PT Plots Appendix 19-2;See file;Appendix_19-21.pdf Path C South vs.Monument -Naughton-Dynamics plots Appendix 20-1;See file;Appendix_20-1.pdf Path C South vs.Rock Spgs /Firehole-Base Case &PT Plots Appendix 20-2;See file;Appendix_20-2.pdf Path C South vs.Rock Spgs /Firehole-Dynamics plots l1/24/2010 Gateway West Project -Bridger Study Area Page 4 of 150 WECC Phase 2 Project Rating Report Executive Summary PacifiCorp plans to build a 500 kV transmission Project to deliver wind power from central Wyomingto central Utah and eastern Idaho.The Project consists of 500 kV transmission from central Wyomingto central Utah and a second set of 500 kV lines from Wyomingto the eastern Idaho area and eventuallyto the lower Columbia River system in north central Oregon.The project also consists of a 230 kV collector system in Wyoming,which delivers the output of various wind farms to a 500 /230 kV central hub called Aeolus.Just to the northwest of the existing Dave Johnston plant,a second 230 kV hub station called Windstar will be developed with 230kV tie lines to Aeolus.See Figure 1 for a geographic depiction of the proposed facilities that comprise 'Stage l'of the ultimate build-out plan for the system.As noted in the Legend,Stage 1 consists of the solid lines only. Figure 1 Gateway Energy Project Stage 1 -Transmission Plan To Ben Lomond wvoMINALsALTLANE cotonAco 345kv To WILuAMs Legend Planned Future Voltage I ,* ----500 kV -------345kv i i FNTo O ----230 kV agoBUTTE Oconsens This study covers the "Bridger Area"and includes the followingprimary paths; Aeolus West Bridger /Anticline West Path C Southbound This study shows that the proposed project meets all applicable NERC Planning Standards and WECC System Performance Criteria with minor modifications to the originally proposed plan of service. 11/24/2010 Gateway West Project -Bridger Study Area Page 5 of 150 WECC Phase 2 Project Rating Report At the start of this study,Idaho Power and PacifiCorp agreed that the Bridger West 345 kV path be studied only at 2400 MW,a 200 MW upgrade from the existing rating of 2200 MW. 1.Introduction This report establishes that,at the proposed transfer levels,the Bridger Area of the Gateway West system has little to no impact on paths external to PacifiCorp and Idaho. 1.1.Project Description As shown in Figure 1,the Gateway West system consists of a 230kV collector system for various wind farms in central and western Wyoming.These systems either connect to the "Tot 4a"230kV lines or connect directly to the Windstar and Aeolus hubs.From Aeolus extends a 500 kV line to Anticline,in the Bridger vicinity,and then on to Populus.Other portions of the Gateway West project will consist of 500 kV lines from Populus to Midpoint and Hemmingway, and on to Slatt substation in Oregon.A second 500 kV line from Aeolus will extend through northwestern Colorado and into a new substation called Mona Annex (or Clover)located with a few miles of the existing Mona 345kV station. 1.2.Plan of Service .See Appendix 5 for the Gateway West Study Plan (2010 01 19 V9 -Phase I II GW Study Plan.doc)for a detailed listing of the project components. 1.3.Planned Operating Date The plan of service provides for the Aeolus West stage one facilities to be operational by 2016 or 2017.The Aeolus South stage two facilities will be operational by 2017 to 2019 2.Transfer Capability This report intends to prove that the Gateway West Project has little or no significant impact to paths external to PacifiCorp.In the few instances where impacts are identified,simultaneous flow impacts will be respected.In some cases,impact remediation facilities will be installed. Early on in this study,a request was received to analyze possible increases in the study plan table of desired capacities to allow some flexibilityof deliveryto Aeolus South or Aeolus West. Table 1 shows the originally proposed path ratings and actual ratings achieved. Table l 11/24/2010 Gateway West Project -Bridger Study Area Page 6 of 150 WECC Phase 2 Project Rating Report Path RatingWECCPathProposedStage.. .Achieved in thisName/Number 1 Rating study Aeolus West'(New)1500 MW 2672 MW Bridger /Anticline West (19)3900 MW 4100 MW Path C (20)Southbound 2250 MW 2250 MW The above ratings are all based on a heavy summer representationfor the 2019 time frame.An analysis of a lighterload condition to study Path C northbound was requested,but a PRG approvedbase case was not delivered in time to be included in this study.The Path C northbound path rating will be addressed in a separate report. The path transfer capability is limited due to NERC/WECC reliabilityperformance requirements.The NERC/WECC "ReliabilityCriteria"is available at the followinglink: http://www.wecc.biz/documents/library/procedures/CriteriaMaster.pdf 3.Study Methods and Standards 3.1.Steady-State Case Stressing Details of how each study base case was developed can be found in the Base Case Development sections of the studied system flow conditions. 3.2.Post Transient The power flow conditions generated above are modeled with single line (N-1)outages,credible double line (N-2)outages,breaker failure outages,as well as risk assessment outages to evaluate the NERC/WECC category B,and C performance.All modeled system bus voltages and line, transformer,and series capacitor current flows are monitored.Voltage deviations greater than 5%and significant overloaded elements,with greater than a 2%change in flow,are reported in the tables located in the appendices.Engineering judgmentwas used to determine whether the overloading was relevant to the area.For example,some contingencies in the PACE area caused parallel transformer tap changers in B.C.Hydro and Alberta to head in opposite directions, leading to circulating Vars overloading the transformers.These loading issues are clearly a defect in modeling built into the original base cases and these loadings have not been included in the reports. For PacifiCorp's Wyoming system,voltages less than .90 pu are reported.For Montana buses on Path 18 for Level B and C contingencies,.90 pu voltage is required.For Idaho and PacifiCorp Path 18 buses,voltages less than .87 pu are limitingfor Level B and C contingencies. For Level C contingencies,under-voltage load tripping at Amps,Peterson Flats,and Big Grassy is allowed to restore system voltages. *The study plan definitionof Aeolus West as only the Aeolus -Anticline 500 kV line.Duringthe course of this study,the definition was modifiedto include three 230 kV lines. 11/24/2010 Gateway West Project -Bridger Study Area Page 7 of 150 WECC Phase 2 Project Rating Report Violations of the NERC/WECC allowed performance are identified in the summary paragraphs for each path relationship /nomogram section. 3.3.Reactive Margin Idaho Power's reactive margin requirements are; For N-1 outages;500 MVAR for 500 kV and 250 MVAR for 345 and 230 kV. For N-2 outages;400 MVAR for 500 KV and 200 MVAR for 345 and 230 kV For this study,Idaho is assumed to be the owner of the followingmargin tested buses; Borah 500 Borah 345 Kinport 345 Midpoint 500 Hemmingway 500 Cedar Hill 500 The WECC also requires that new rated paths or facilities be scheduled at 2.5%for all level C contingencies and 5%over their rated capacities for Level B contingencies to test for voltage collapse.Each starting nomogram corner case was modified to increase the flow by 5%and checked that a solution was attained for each outage. 3.4.Transient Stability UtilizingGE PSLF software,select single line (N-1)and double line (N-2)and other outages were studied to evaluate transient stability performance.Relevant bus voltage and frequency violations of the NERC/WECC allowed performance are documented in Appendix 4. 3.5.Generation Drop via Remedial Action Schemes (RAS) In order to maintain PacifiCorp's current level of reserve requirements (for Bridger contingencies),Wyomingwind generation dropping via RAS was limited to 600 MW for single line outage contingencies (N-1)and 1200 MW for double line outage contingencies. 4.Path Definitions Both new and existing path definitions are as follows,with a '*'denoting the metering points. 4.1.Aeolus West (New) The Aeolus West transmission path is a constrained path and is defined as the sum of the flows on the followinglines:(this defn differs from the study plan) Aeolus*-Anticline 500 kV Platte*-Latham 230 kV Mustang*-Bridger 230 kV l1/24/2010 Gateway West Project -Bridger Study Area Page 8 of 150 WECC Phase 2 Project Rating Report Riverton*-Wyopo 230 kV 4.2.Aeolus South (New) The Aeolus South path is a constrained path and is defined as the sum of the flows on only one line: Aeolus*-Mona Annex 500 kV 4.3.Bridger West 345 kV (Existing) The Bridger /Anticline West constrained path and is defined as the sum of the flows on the followinglines: Bridger*-3 Mile Knoll 345 kV Bridger*-Populus 345 kV #1 Bridger*-Populus 345 kV #2 Bridger West,comprising only the existing 345 kV lines from Bridger,is currentlyrated at 2200 MW.With the Gateway West Project,this path rating is planned to increase to 2400 MW. 4.4.Bridger /Anticline West (Modified) The Bridger /Anticline West constrained path and is defined as the sum of the flows on the followinglines: Anticline*-Populus 500 kV Bridger*-3 Mile Knoll 345 kV Bridger*-Populus 345 kV #1 Bridger*-Populus 345 kV #2 With the Gateway West Project this Path is anticipated to be rated at 4100 MW. 4.5.Path C (Existing-After completion of the Populus -Terminal Project) Path C is a constrained path and is defined as the sum of the flows on the followinglines: Terminal -Populus*345 kV Ben Lomond -Populus*345 kV #2 Ben Lomond -Populus*345 kV #3 Treasureton -Brady*230 kV Fish Creek -Goshen*161 kV Malad -American Falls *138 kV 3 Mile Knoll 138 /345*kV Transformer 3 Mile Knoll*-Hooper Spur 138 kV After completion of the Populus -Terminal Project,Path C will have a southboundrating of 1600 MW and a northbound rating of 1250 MW.With the Gateway West Project,the Path C rating goals are 2250 MW bi-directional. 11/24/2010 Gateway West Project -Bridger Study Area Page 9 of 150 WECC Phase 2 Project Rating Report 4.6.Monument --Naughton (Internal Path) Monument -Naughton is a path internal to PacifiCorp,is not registered with the WECC,and is defined as the sum of the flows on the followinglines: Monument PST*-Craven Creek 230 kV Monument PST*-Naughton 230 kV 4.7.West of Rock Springs /Firehole (Internal Path) Monument -Naughton is a path internal to PacifiCorp,is not registered with the WECC,and is defined as the sum of the flows on the followinglines: Rock Springs*-Palisade 230 kV Firehole*-Mansface 230 kV 5.Project Base Case Modifications The followingdescribes various changes to the base cases to resolve PSLF solution convergence issues. 5.1.SVC Tie Line Modeling At St.George,Red Butte,Platte,and Aeolus,tie lines between the SVC and the main substation bus had too low an impedance to obtain reliable solutions in PSLF.These impedances were adjusted to be above the Z threshold to get the cases to reliably converge.In some instances,the Red Butte SVC had to be disconnected to obtain a valid solution. 5.2.Line and Transformer Rating Conflicts From the original WECC base cases there are some instances where the emergency ratings (MVA2)are lower than the normal ratings (MVAl).The consequences of this are that the Post- transient flow program output would get clogged with reports of overloads that are not real.To reduce the erroneous reports,a program was run to set the emergency ratings at least equal to the normal ratings. 5.3.Phase Shifter Tap Steps Most of the controlled flow phase shifter tap steps were changed to zero degrees to allow for fine tuning of the path flows. 5.4.SVDs to Shunt Conversions In the PacifiCorp system,many of the Static Var Devices (SVDs)were disconnected and replaced with shunt capacitors and reactors to allow forcing of the devices to correct voltage profiles while keeping generator reactive within reasonable limits. 5.5.Other System Modeling Changes /Corrections Several cases involvingheavy Path C southboundflows resulted in Aeolus flows greater than 1700 MW.To keep the Aeolus south flows within the 1700 MW limit,a small portion of the l1/24/2010 Gateway West Project -Bridger Study Area Page 10 of 150 WECC Phase 2 Project Rating Report series capacitors closest to Aeolus were bypassed (by modifyingthe bank impedance)on the Aeolus -Mona Annex 500 kV line. On the starting base case,errors were noted on the PDCI B-Face table such that the PDCI flows were being incorrectlyreported.This was corrected via an epel routine. 5.6.PacifiCorp System Updates /Corrections Throughthe course of the study,modeling errors were noted in both the existing system in the Gateway West proposed facilities.To track case versions,these changes also describe case version code changes; 1.Early on in the studies,a reactive deficiency at Bonanza was noted.At the recommendation of Deseret Energy,the 345 kV line reactor was removed fromthe Bonanza -Mona 345 kV line and a 60 MVar shunt capacitor was added to the Bonanza 138 kV bus.A previouslysuggested load addition at Chapita 138 was not added due to the lack of a plan of service study.At about the same time it was noted that the SVDs modeled at the Tot 4a 230kV buses were causing the PT cases to diverge.To fix this problem,the SVDs were converted to shunts and switched via RAS in the switching files.These changes,along with a rating change of the Malad -American Falls 138 kV line were incorporated into cases identifiedby the version code '8h5'. 2.An error was found in the conversion of the cases from PSSE to PSLF in the shunt tables.In PSSE, shunts are part of the bus records,and if they are off line,they are simply deleted fromthe record.When converting to PSLF,this informationis lost.An EPCL was developed to incorporate the original shunt tables fromthe parent WECC case.The case version code for this change was '8h6'. 3.In the approved project case,only transformer and phase shifters connected to Anticline 500 kV to Bridger 345.A change was requested to add the 5 mile section of 345 kV line between Anticline and Bridgerwith the transformers and phase shifters located at Anticline.Also,the addition of Riverton-Wyopo 230 kV line to the Aeolus West interface.The case version code for this change was '8h7'. 4.Errors were noted in the representation of the Aeolus area shunts and SVC.The SVC was increased to +450 MVar.At this same time,the fixed SVD at Spence was removed and replaced with a switchable shunt and the Pinto phase shifter impedance was corrected.The case version code for this change was '8h8'. 5.After it was found that the Platte -Miners and Platte -Latham 230 kV lines were constraining Aeolus West flows,it was decided to change the emergency rating (MVA2)to the 30 minute rating of 521 MVA for both of these lines.As the network topology did not change,the version code remained at '8h8'. 6.Path Studies 6.1.Aeolus West vs.Aeolus South 6.1.1.Base Case Development The Gateway West Project base case was modified to stress Aeolus West to 2672 MW with several cases spanning a range of Aeolus South flows.The primary resource for stressing Aeolus West was the WyomingWind developments.Aeolus South flows were stressed by varying;1)Current Creek generation,2)IPP DC flows and the wind generationconnected to IPP 345,and lastly,Nevada generation and Tot 2C flows. 11/24/2010 Gateway West Project -Bridger Study Area Page 11 of 150 WECC Phase 2 Project Rating Report For cases with Aeolus South flows at 1700 MW,Aeolus West flows were fine tuned by varying schedules from WAPA (73)to the Northwest (40).Shunt capacitors were added to Mona Annex 500 kV to support the high flows into central Utah.Path flows for each of the above cases are shown on Appendix 3-1.The resulting nomogram is shown on Appendix 2-1. Finally,two margin test cases were developedwith 5%additional flows across 1)Aeolus West path and 2)Aeolus South path.These cases are shown near the bottom of Appendix 3-1. 6.1.2.Post-Transient Analysis Appendix 3-1 contains the tables associated with the post-transient study results for the import cases.A discussion of several of the prominent outages follows. Anticline -Populus 500 kV Line (ContingencyB01 and RAS variations) This outage results in overloads on the Bridger -3 Mile Knoll 345 kV line.In the cases,the line is rated at 1840 Amps and this loading information has been requested for design input to PacifiCorp to determine the magnitude of rating increase needed to rebuild the single conductor portions of the line capable of withstanding the most severe contingencies imposed by the Gateway West Project.Several RAS options are shown to allow selection of line upgrade costs vs.the risks inherent with RAS. Aeolus -Anticline 500 kV Line (ContingencyB35 and RAS variations) This contingency diverges without any RAS actions.However with RAS actions as noted for the B35g,(600 MW of Aeolus area generationdropping,500 kV switchable capacitors applied,additional 230kV capacitors at Mustang,Riverton,and additional capacitors on Path 18)becomes the limitingcontingency for both nomogram corners.This outage results in overloads on the Miners -Platte 230 kV line even when the 52 l MVA 30 minute emergency rating is used,and thereby sets the PT limit for this contingency. Aeolus -Mona Annex (Clover)500 kV Line (ContingencyB36 and RAS variations) This contingency also diverges without any RAS actions.However,with 600 MW of generationdropping and 500 kV and 230 kV switchable capacitor applications,the contingency problems are fully resolved. Bridger-Populus 345 kV Lines 1 &2 (CO2 and RAS variations) This outage results in overloads on the Bridger -3 Mile Knoll 345 kV line.However,as noted above,the loading numbers are to be used as a design input for rebuilding the limiting conductor sections.Some voltage deviation problems are noted,but these issues are fully mitigated with RAS switching. 11/24/2010 Gateway West Project -Bridger Study Area Page 12 of 150 WECC Phase 2 Project Rating Report Bridger-Populus &Bridger-3 Mile Knoll 345 kV Lines (CO3 and RAS variations) This outage resulted in overloads of the Bridger -Rock Springs 230kV line.Follow-up cases with Bridger generation dropping and additional RAS action on Path 18 resolve both the loading problem and the voltage deviation issues on Path 18. Palo Verde 2-unit loss with FACRI (N-2) This contingency,with FACRI action and Desert SW load dropping planned for this event resulted in overloads of Springer -Gladstone 115 kV line for one corner point of the nomogram and an overload of Merwin -View Tap 115kV line for the other corner point. Springer -Gladstone is a known problem for which remediation is already planned.The Merwin -View tap problem is also a known problem related to north to south flows on transmission into the Vancouver,WA and Portland,OR loads. 6.1.3.Reactive Margin Analysis Both corner points of the nomogram were tested with +5%flow cases as noted near the bottom of Appendix 3-1.Both corner +5%cases solved for all contingencies (with appropriate RAS actions),indicating sufficient reactive margins for both Level B and Level C contingencies. Idaho's reactive margin requirements were also met for all contingencies (with appropriate RAS actions). 6.1.4.Transient Stability Analysis As shown on Appendix 4-1,dynamic simulations were run on both nomogram corner points. Contingency B08 and B09 with RAS variations,resulted in back swing under-frequency deviations.However,these deviations are within the exceptions for Bridger that are filed with the WECC.See Appendix 21 for details of the TSS Approved exceptions for Bridger. Contingency Bl5 (Aeolus -Anticline 500 kV line)also producedvoltage and frequency deviations.However,these were mitigated with some of the RAS actions simulated in the PT contmgencies. Contingency Bl6 (Aeolus -Mona Annex 500 kV line)also produced voltage deviations. However,these were mitigated with some of the RAS actions simulated in the PT contingencies. Blundel #2 also lost synchronism and went out-of-step.Blundel #2 is known as having modeling problems where the unit losses synchronism for very remote faults.This result is not relevant to this study. 11/24/2010 Gateway West Project -Bridger Study Area Page 13 of 150 WECC Phase 2 Project Rating Report 6.2.Aeolus West vs.Bonanza West 6.2.1.Base Case Development The Gateway West Project base case was modified to stress Aeolus West to 2666 MW with several cases with Bonanza West flows at 785 MW and 685 MW.The primary resource for stressing Aeolus West was the Wyoming Wind developments.Bonanza West flows were stressed by varying;1)Current Creek generation,and 2)IPP DC flows and the wind generation connected to IPP 345.From the starting point (2666,785)Aeolus West flows were cut by 100 MW to 2566 MW by varying schedules from WAPA (73)to the Northwest (40).Path flows for each of the above cases are shown on Appendix 3-2.The resulting nomogram is shown on Appendix 2-2. Two margin test cases were developedwith 5%additional flows across 1)Aeolus West path and 2)Bonanza West path.These cases are shown near the bottom of Appendix 3-2. 6.2.2.Post-Transient Analysis Appendix 3-2 contains the tables associated with the post-transient study results for the Aeolus West vs.Bonanza West cases.A discussion of several of the prominent outages follows. Anticline -Populus 500 kV Line (ContingencyB01 and RAS variations) This outage results in overloads on the Bridger -3 Mile Knoll 345 kV line.In the cases,the line is rated at 1840 Amps and this loading information has been requested for design input to PacifiCorp to determine the magnitude of rating increase needed to rebuild the single conductor portions of the line capable of withstanding the most severe contingencies imposed by the Gateway West Project.Several RAS options are shown to allow selection of line upgrade costs vs.the risks inherent with RAS. Bridger-3 Mile Knoll 345 kV Lines (B04 and RAS variations) For this outage,loadings are within emergency ratings.However,voltage deviations and deviations from the .90 pu standard for Path 18 are noted.Subsequent simulations with RAS actions fully resolve these issues. Aeolus -Anticline 500 kV Line (ContingencyB35 and RAS variations) This contingency diverges without any RAS actions.However with RAS actions as noted for the B35g,(600 MW of Aeolus area generationdropping,500 kV switchable capacitors applied,additional 230kV capacitors at Mustang,Riverton,and additional capacitors on Path 18)becomes the limitingcontingency for both nomogram corners.This outage results in overloads on the Miners -Platte 230 kV line even with the 521 MVA 30 minute emergency rating,and thereby sets the PT limit for this contingency. Aeolus -Mona Annex (Clover)500kV Line (ContingencyB36 and RAS variations) 11/24/2010 Gateway West Project -Bridger Study Area Page 14 of 150 WECC Phase 2 Project Rating Report This contingency also diverges without any RAS actions.However,with 600 MW of generationdropping and 500 kV and 230 kV switchable capacitor applications,the contingency problems are fully resolved. Bonanza -Mona 345 kV Line (B40 and B40a with RAS) For this outage,a total of 10 elements overload,with the worst being the Bonanza -Vernal 138 kV line that loads to 133.42%of its emergency rating.Contingency 40a,with the existing Bonanza generation dropping RAS,fully resolves the loading and voltage deviations issues. Bridger-Populus 345 kV Lines 1 &2 (CO2 and RAS variations) This outage results in overloads on the Bridger -3 Mile Knoll 345 kV line.However,as noted above,the loading numbers are to be used as a design input for rebuilding the limiting conductor sections.Some voltage deviation problems are noted,but these issues are fully mitigated with RAS switching. Bridger-Populus &Bridger-3 Mile Knoll 345 kV Lines (CO3 and RAS variations) This outage resulted on overloads of the Bridger -Rock Springs 230kV line.Follow-up cases with Bridger generation dropping and additional RAS action on Path 18 resolve both the loading problem and the voltage deviation issues on Path 18. Palo Verde 2-unit loss with FACRI (N-2) This contingency,with FACRI action and Desert SW load dropping planned for this event resulted in overloads of Springer -Gladstone l15 kV line.Springer -Gladstone is a known problem for which remediation is already planned. 6.2.3.Reactive Margin Analysis Both corner points of the nomogram were tested with +5%flow cases as noted near the bottom of Appendix 3-2.Both corner +5%cases solved for all contingencies (with appropriate RAS actions),indicating sufficient reactive margins for both Level B and Level C contingencies. Idaho's reactive margin requirements were also met for all contingencies (with appropriate RAS actions). 6.2.4.Transient Stability Analysis As shown on Appendix 4-2,,dynamic simulations were run on both nomogram corner points. Contingency B08 and B09 with RAS variations,resulted in back swing under-frequency deviations.For contingency B09c,the backswing exceeded the "exceptions"for Bridger that are filed with the WECC.See Appendix 21 for details of the TSS Approved exceptions for Bridger. If this deviation is determined to be acceptable and not a risk to tripping the Bridger units,an amendment to the WECC exceptions list could easily resolve this issue. 11/24/2010 Gateway West Project -Bridger Study Area Page 15 of 150 WECC Phase 2 Project Rating Report Contingency Bl5 (Aeolus -Anticline 500 kV line)also producedvoltage and frequency deviations.However,these were mitigated with some of the RAS actions simulated in the PT contmgencies. Contingency Bl6 (Aeolus -Mona Annex (Clover)500 kV line)for the second base case (785, 2666)also produced voltage deviations and a over-excitation limiter (OELl)relay trip of the Bonanza unit.Follow-upRAS cases with generationdrop RAS and capacitor switching did not resolve the OEL trips.A further investigation into the OEL1 relay resulted in new relay data from Deseret Energy.However,the new data also resulted in a trip of Blundel #2 in addition to the OEL trip of Bonanza.After checking the dynamics plots it was found that the excitation current was well below the OEL1 trip setting.A further test with the trip functions of the OEL relay disabled produced stable operation and generator filed currents well within the maximums. From this,it is concluded to be a relay /modeling problem and is not a problem associated with Gateway West transfers.If a more detailed analysis determines Bonanza OELl relay settings to be correct and the field current to be a real problem,a 60 MVar switchable cap (#2)could be added to get the generator off its excitation /Var limits.This sensitivityanalysis is provided on line 86 of Appendix 4-2. 6.3.Aeolus West vs.Tot la 6.3.1.Base Case Development The Gateway West Project base case was modified to stress Aeolus West to 2672 MW with several cases with Tot la flows at 650 MW and 550 MW.The primary resource for stressing Aeolus West was the WyomingWind developments.Tot la flows were stressed by varying;1) Bonanza generation,2)Craig /Hayden generation,3)Current Creek generation,and 4)IPP DC flows and the wind generationconnected to IPP 345.Craig #3 generation was modeled at 4302 MW which is above the governor limit shown in the dynamics data file.From the starting point (2672,650)Aeolus West flows were cut by 100 MW to 2572 MW by varyingschedules from WAPA (73)to the Northwest (40).Path flows for each of the above cases are shown on Appendix 3-3.The resulting nomogram is shown on Appendix 2-3. One margin test cases was developed with 5%additional flows across the Aeolus West path and Tot la.These cases are shown near the bottom of Appendix 3-3. 6.3.2.Post-Transient Analysis Appendix 3-3 contains the tables associated with the post-transient study results for the Aeolus West vs.Bonanza West cases.A discussion of several of the prominent outages follows. Anticline -Populus 500 kV Line (ContingencyB01 and RAS variations) 2 An email request for this modeling change was made to Tri-State on June 17,2010.As of this writing,no response has been received. 11/24/2010 Gateway West Project -Bridger Study Area Page 16 of 150 WECC Phase 2 Project Rating Report This outage results in overloads on the Bridger -3 Mile Knoll 345 kV line.In the cases,the line is rated at 1840 Amps and this loading information has been requested for design input to PacifiCorp to determine the magnitude of rating increase needed to rebuild the single conductor portions of the line capable of withstanding the most severe contingencies imposed by the Gateway West Project.Several RAS options are shown to allow selection of line upgrade costs vs.the risks inherent with RAS. Bridger-3 Mile Knoll 345 kV Lines (B04 and RAS variations) For this outage,loadings are within emergency ratings.However,voltage deviations and deviations from the .90 pu standard for Path 18 are noted.Subsequent simulations with RAS actions fully resolve these issues. Aeolus -Anticline 500 kV Line (ContingencyB35 and RAS variations) This contingency diverges without any RAS actions.However with RAS actions as noted for the B35g,(600 MW of Aeolus area generationdropping,500 kV switchable capacitors applied,additional 230kV capacitors at Mustang,Riverton,and additional capacitors on Path 18)becomes the limitingcontingency for both nomogram corners.This outage results in overloads on the Miners -Platte 230 kV line even with the 521 MVA 30 minute emergency rating,and thereby sets the PT limit for this contingency. Aeolus -MonanX (Clover)500 kV Line (ContingencyB36 and RAS variations) This contingency also diverges without any RAS actions.However,with 600 MW of generationdropping and 500 kV and 230 kV switchable capacitor applications,the only issues remaining are voltage deviations greater than 5%in the Bonanza area.A shunt capacitor,discussed later in this report,may be available to bring the Bonanza generator off of its upper Var limit and thereby reduce the voltage deviations to acceptable limits. Bonanza -Mona 345 kV Line (B40 and B40a with RAS) For this outage,a total of 10 elements overload,with the worst being the Boanza -Vernal 138 kV line that loads to 133.42%of its emergency rating.Contingency 40a,with the existing gen drop RAS,fully resolves the loading and voltage deviations issues. Bridger-Populus 345 kV Lines 1 &2 (CO2 and RAS variations) This outage results in overloads on the Bridger -3 Mile Knoll 345 kV line.However,as noted above,the loading numbers are to be used as a design input for rebuilding the limiting conductor sections.Some voltage deviation problems are noted,but these issues are fully mitigated with RAS switching. Bridger-Populus &Bridger-3 Mile Knoll 345 kV Lines (CO3 and RAS variations) 11/24/2010 Gateway West Project -Bridger Study Area Page 17 of 150 WECC Phase 2 Project Rating Report This outage resulted on overloads of the Bridger -Rock Springs 230kV line.Follow-up cases with Bridger generation dropping and additional RAS action on Path 18 resolve both the loading problem and the voltage deviation issues on Path 18. Palo Verde 2-unit loss with FACRI (N-2) This contingency,with FACRI action and Desert SW load dropping planned for this event resulted in overloads of Springer -Gladstone l15 kV line.Springer -Gladstone is a known problem for which remediation is already planned. 6.3.3.Reactive Margin Analysis As shown near the bottom of Appendix 3-3,One simultaneous case was developedwith +5%on Aeolus West and Tot la.This case solved for all contingencies (with appropriate RAS actions), indicating sufficient reactive margins for both Level B and Level C contingencies.Idaho's reactive margin requirements were also met for all contingencies(with appropriate RAS actions). 6.3.4.Transient Stability Analysis As shown on Appendix 4-3,dynamic simulations were run on both nomogram corner points. Contingency B08 and B09 with RAS variations,resulted in back swing under-frequency deviations.For contingency B09c,the backswing exceeded the exceptions for Bridger that are filed with the WECC.See Appendix 21 for details of the TSS Approved exceptions for Bridger. If this deviation is determined to be acceptable and not a risk to tripping the Bridger units,an amendment to the WECC exceptions list could easily resolve this issue. Contingency Bl5 (Aeolus -Anticline 500 kV line)also producedvoltage and frequency deviations.However,these were mitigated with some of the RAS actions simulated in the PT contmgencies. Contingency Bl6 (Aeolus -Mona Annex (Clover)500 kV line)for the second base case (650, 2522)resulted in an over-excitation limiter (OEL1)relay trip of the Bonanza unit.Follow-up RAS cases with generation drop RAS and capacitor switching did not resolve the OEL trips.A further investigation into the OELl relay resulted in new relay data from Deseret Energy. However,was not successful in elimination of the Bonanza OEL trip.After checking the dynamics plots it was found that the excitation current was well below the OEL1 trip setting.A further test with the trip functions of the OEL relay disabled.The resulting run produced stable operation and generator filed currents well within the maximums.From this,it is concluded to be a relay /modeling problem and is not a problem associated with Gateway West transfers.If a more detailed analysis determines Bonanza OEL1 relay settings to be correct and the field current to be a real problem,a 60 MVar switchable cap (#2)could be added to get the generator off its excitation /Var limits. 11/24/2010 Gateway West Project -Bridger Study Area Page 18 of 150 WECC Phase 2 Project Rating Report 6.4.Bridger /Anticline West vs.Aeolus South 6.4.1.Base Case Development The Gateway West Project base case was modified to stress Bridger /Anticline West to 4100 MW with several cases spanning a range of Aeolus South flows from 1500 MW to 1700 MW. The primary resource for stressing Bridger /Anticline West was the WyomingWind developments.Aeolus South flows were controlled by varying;1)Current Creek generation,2) IPP DC flows and the wind generationconnected to IPP 345,and lastly,Nevada generation and Tot 2C flows. For cases with Aeolus South flows at 1700 MW,Bridger /Anticline West flows were fine tuned by varying schedules from WAPA (73)to the Northwest (40).Shunt capacitors were added to Mona Annex (Clover)500 kV to support the high flows into central Utah.Path flows for each of the above cases are shown on Appendix 3-4.The resulting nomogram is shown on Appendix 2-4. Finally,two margin test cases were developedwith 5%additional flows across 1)Aeolus West path and 2)Aeolus South path.These cases are shown near the bottom of Appendix 3-4. 6.4.2.Post-Transient Analysis Appendix 3-4 contains the tables associated with the post-transient study results for the import cases.A discussion of several of the prominent outages follows. Anticline -Populus 500 kV Line (ContingencyB01 and RAS variations) This outage results in overloads on the Bridger -3 Mile Knoll 345 kV line.In the cases,the line is rated at 1840 Amps and this loading information has been requested for design input to PacifiCorp to determine the magnitude of rating increase needed to rebuild the single conductor portions of the line capable of withstanding the most severe contingencies imposed by the Gateway West Project.Several RAS options are shown to allow selection of line upgrade costs vs.the risks inherent with RAS. Aeolus -Anticline 500 kV Line (ContingencyB35 and RAS variations) This contingency diverges without any RAS actions.However with RAS actions as noted for the B35g,(600 MW of Aeolus area generationdropping,500 kV switchable capacitors applied,additional 230kV capacitors at Mustang,Riverton,and additional capacitors on Path 18)becomes the limitingcontingency for both nomogram corners.For the upper left nomogram corner point,this outage results in overloads of the Bridger 345 /230 kV transformer #2,and thereby sets the PT limit.For the lower right nomogram point,this outage results in overloads of three critical elements,the worst of which is the Miners - Platte 230 kV line. l1/24/2010 Gateway West Project -Bridger Study Area Page 19 of 150 WECC Phase 2 Project Rating Report Aeolus -Mona Annex (Clover)500 kV Line (ContingencyB36 and RAS variations) This contingency also diverges without any RAS actions.However,with 600 MW of generationdropping and 500 kV and 230 kV switchable capacitor applications,the contingency problems are fully resolved. Bridger-Populus 345 kV Lines 1 &2 (CO2 and RAS variations) This outage results in overloads on the Bridger -3 Mile Knoll 345 kV line.However,as noted above,the loading numbers are to be used as a design input for rebuilding the limiting conductor sections.Some voltage deviation problems are noted,but these issues are fully mitigated with RAS switching. Bridger-Populus &Bridger-3 Mile Knoll 345 kV Lines (CO3 and RAS variations) This outage resulted on overloads of the Bridger -Rock Springs 230kV line.Follow-up cases with Bridger generation dropping and additional RAS action on Path 18 resolve both the loading problem and the voltage deviation issues on Path 18. Palo Verde 2-unit loss with FACRI (N-2) This contingency,with FACRI action and Desert SW load dropping planned for this event resulted in overloads of Springer -Gladstone l15 kV line.Springer -Gladstone is a known problem for which remediation is already planned. 6.4.3.Reactive Margin Analysis Both corner points of the nomogram were tested with +5%flow cases as noted near the bottom of Appendix 3-4.Both corner +5%cases solved for all contingencies (with appropriate RAS actions),indicating sufficient reactive margins for both Level B and Level C contingencies. Idaho's reactive margin requirements were also met for all contingencies (with appropriate RAS actions). 6.4.4.Transient Stability Analysis As shown on Appendix 4-4,dynamic simulations were run on cases near the nomogram corner points.Contingency B08 and B09 with RAS variations,resulted in back swing under-frequency deviations.However,these deviations are within the "exceptions"for Bridger that are filed with the WECC.See Appendix 21 for details of the TSS Approved exceptions for Bridger. Contingency Bl5 (Aeolus -Anticline 500 kV line)also producedvoltage and frequency deviations.However,these were mitigated with some of the RAS actions simulated in the PT contmgencies. 11/24/2010 Gateway West Project -Bridger Study Area Page 20 of 150 WECC Phase 2 Project Rating Report Contingency Bl6 (Aeolus -Mona Annex (Clover)500 kV line)also produced voltage deviations.However,these were mitigated with some of the RAS actions simulated in the PT contmgencies. 6.5.Bridger /Anticline West vs.Path C Southbound 6.5.1.Base Case Development The Gateway West Project base case was modified to stress Bridger /Anticline West to 4100 MW with several cases spanning a range of Path C Southboundflows from 1450 to 1550 MW. The primary resource for stressing Bridger /Anticline West was the WyomingWind developments.Path C Southboundflows were controlled by varying;l)Northwest (40) generation,and 2)PACE area generationincludingCurrent Creek,Lakeside,and Huntington. A second case with Path C southbound flows at 2250 MW,and Bridger /Anticline West reduced to 3900 MW was very difficult to schedule without overloading the Aeolus South path. Additional cases with higher Bridger /Anticline West were not attainable.The resulting nomogram is shown on Appendix 2-5. Two margin test cases were developedwith 5%additional flows across 1)Bridger /Anticline West and 2)Path C Southbound.These cases are shown near the bottom of Appendix 3-5. 6.5.2.Post-Transient Analysis Appendix 3-5 contains the tables associated with the post-transient study results for the import cases.A discussion of several of the prominent outages follows. Anticline -Populus 500 kV Line (ContingencyB01 and RAS variations) This outage results in overloads on the Bridger -3 Mile Knoll 345 kV line.In the cases,the line is rated at 1840 Amps and this loading information has been requested for design input to PacifiCorp to determine the magnitude of rating increase needed to rebuild the single conductor portions of the line capable of withstanding the most severe contingencies imposed by the Gateway West Project.Several RAS options are shown to allow selection of line upgrade costs vs.the risks inherent with RAS. Aeolus -Anticline 500 kV Line (ContingencyB35 and RAS variations) This contingency diverges without any RAS actions.However with RAS actions as noted for the B35g,(600 MW of Aeolus area generationdropping,500 kV switchable capacitors applied,additional 230kV capacitors at Mustang,Riverton,and additional capacitors on Path 18)resolves the voltage deviation problems.The Jefferson phase shifter overload shown is based on an emergency rating of 100 MVA.When corrected to the true rating of 112 MVA, the overload is resolved. Aeolus -MonanX (Clover)500 kV Line (ContingencyB36 and RAS variations) 11/24/2010 Gateway West Project -Bridger Study Area Page 21 of 150 WECC Phase 2 Project Rating Report This contingency also diverges without any RAS actions.With 600 MW of generation dropping and 500 kV and 230 kV switchable capacitor applications,the Grace -Soda 138 kV line remains overloaded,indicating the need for bypassing ½of the 3 Mile Knoll series capacitor or reconductoring of the Grace -Soda 138 kV line. Bridger-Populus 345 kV Lines 1 &2 (CO2 and RAS variations) This outage results in overloads on the Bridger -3 Mile Knoll 345 kV line.However,as noted above,the loading numbers are to be used as a design input for rebuilding the limiting conductor sections.Some voltage deviation problems are noted,but these issues are fully mitigated with RAS switching. Bridger-Populus &Bridger-3 Mile Knoll 345 kV Lines (CO3 and RAS variations) This outage resulted in an overload of the Bridger -Rock Springs 230kV line.Follow-up cases with Bridger generation dropping and additional RAS action on Path 18 resolve both the loading problem and the voltage deviation issues on Path 18. Path C Double Line Outages (Contingencies C09,C10,C11,&C12) This outage resulted in an overload of the Grace -Soda 138 kV line,indicating the need for bypassing ½of the 3 Mile Knoll series capacitor or reconductoring of the Grace -Soda 138 kV line. Palo Verde 2-unit loss with FACRI (N-2) This contingency,with FACRI action and Desert SW load dropping planned for this event resulted in overloads of Springer -Gladstone l15 kV line.Springer -Gladstone is a known problem for which remediation is already planned. 6.5.3.Reactive Margin Analysis Both corner points of the nomogram were tested with +5%flow cases as noted near the bottom of Appendix 3-5.Both corner +5%cases solved for all contingencies (with appropriate RAS actions),indicating sufficient reactive margins for both Level B and Level C contingencies. Idaho's reactive margin requirements were also met for all contingencies (with appropriate RAS actions).While it would appear that the Level C (N-2)contingencies do not meet Idaho's reactive margin requirements,a review of the margin tables shows the lowest margins for contingencies CO3 &C04.Follow-upRAS scenarios fully resolve margin deficiencies noted by red shaded cells. 11/24/2010 Gateway West Project -Bridger Study Area Page 22 of 150 WECC Phase 2 Project Rating Report 6.5.4.Transient Stability Analysis As shown on Appendix 4-5,dynamic simulations were run on both nomogram corner points. Contingency B08 and B09 with RAS variations,resulted in back swing under-frequency deviations.However,these deviations are within the "exceptions"for Bridger that are filed with the WECC.See Appendix 21 for details of the TSS Approved exceptions for Bridger. Contingency Bl5 (Aeolus -Anticline 500 kV line)also producedvoltage and frequency deviations.However,these were mitigated with some of the RAS actions simulated in the PT contmgencies. Contingency Bl6 (Aeolus -Mona Annex 500 kV line)also produced voltage deviations. However,these were mitigated with some of the RAS actions simulated in the PT contingencies. 6.6.Bridger /Anticline West vs.Bonanza West 6.6.1.Base Case Development The Gateway West Project base case was modified to stress Bridger /Anticline West to 4100 MW with several cases spanning a range of Bonanza West flows.The primary resource for stressing Bridger /Anticline West was the WyomingWind developments.Bonanza West flows were controlled by varying;1)Bonanza generation,2)Craig /Hayden generation,3)Currant Creek generation,and 4)IPP DC flows and the wind generation connected to IPP 345. For cases with Aeolus South flows at 1700 MW,Bridger /Anticline West flows were fine tuned by varying schedules from WAPA (73)to the Northwest (40).Shunt capacitors were added to Mona Annex 500 kV to support the high flows into central Utah.Path flows for each of the above cases are shown on Appendix 3-6.The resulting nomogram is shown on Appendix 2-6. Finally,two margin test cases were developedwith 5%additional flows across 1)Aeolus West path and 2)Bonanza West path.These cases are shown near the bottom of Appendix 3-6. 6.6.2.Post-Transient Analysis Appendix 3-6 contains the tables associated with the post-transient study results for the import cases.A discussion of several of the prominent outages follows. Anticline -Populus 500 kV Line (ContingencyB01 and RAS variations) This outage results in overloads on the Bridger -3 Mile Knoll 345 kV line.In the cases,the line is rated at 1840 Amps and this loading information has been requested for design input to PacifiCorp to determine the magnitude of rating increase needed to rebuild the single conductor portions of the line capable of withstanding the most severe contingencies imposed by the Gateway West Project.Several RAS options are shown to allow selection of line upgrade costs vs.the risks inherent with RAS. Aeolus -Anticline 500 kV Line (ContingencyB35 and RAS variations) 11/24/2010 Gateway West Project -Bridger Study Area Page 23 of 150 WECC Phase 2 Project Rating Report This contingency diverges without any RAS actions.However with RAS actions as noted for the B35g,(600 MW of Aeolus area generationdropping,500 kV switchable capacitors applied,additional 230kV capacitors at Mustang,Riverton,and additional capacitors on Path 18)becomes the limitingcontingency for both nomogram corners.For both nomogram corner points,this outage results in overloads of the Miners -Platte 230 kV line,and this loading sets the PT limit. Bridger-Populus 345 kV Lines 1 &2 (CO2 and RAS variations) This outage results in overloads on the Bridger -3 Mile Knoll 345 kV line.However,as noted above,the loading numbers are to be used as a design input for rebuilding the limiting conductor sections.Some voltage deviation problems are noted,but these issues are fully mitigated with RAS switching. Bridger-Populus &Bridger-3 Mile Knoll 345 kV Lines (CO3 and RAS variations) This outage resulted on overloads of the Bridger -Rock Springs 230kV line.Follow-up cases with Bridger generation dropping and additional RAS action on Path 18 resolve both the loading problem and the voltage deviation issues on Path 18. Palo Verde 2-unit loss with FACRI (N-2) This contingency,with FACRI action and Desert SW load dropping planned for this event resulted in overloads of Springer -Gladstone l15 kV line.Springer -Gladstone is a known problem for which remediation is already planned. 6.6.3.Reactive Margin Analysis Both corner points of the nomogram were tested with +5%flow cases as noted near the bottom of Appendix 3-6.Both corner +5%cases solved for all contingencies (with appropriate RAS actions),indicating sufficient reactive margins for both Level B and Level C contingencies. Idaho's reactive margin requirements were also met for all contingencies (with appropriate RAS actions). 6.6.4.Transient Stability Analysis As shown on Appendix 4-6,dynamic simulations were run on both nomogram corner points. Contingency B08 and B09 with RAS variations,resulted in back swing under-frequency deviations.However,these deviations are within the "exceptions"for Bridger that are filed with the WECC.See Appendix 21 for details of the TSS Approved exceptions for Bridger. Contingency Bl5 (Aeolus -Anticline 500 kV line)also producedvoltage and frequency deviations.However,these were mitigated with some of the RAS actions simulated in the PT contmgencies. 11/24/2010 Gateway West Project -Bridger Study Area Page 24 of 150 WECC Phase 2 Project Rating Report Contingency Bl6 (Aeolus -Mona Annex (Clover)500 kV line)resulted in no voltage or frequency deviations for the upper left nomogram point (695,4100).The lower right nomogram corner point (785,4062)had extensive difficulties with an over-excitation limiter (OELl)model that tripped the unit supposedly to protect the rotor from overheating damage.Flows on Bonanza West were decremented down to 3532 MW before the OELl generationtrip problem was resolved.After a discussion of these results,Deseret provided corrected OEL1 model data that slightly changed the timing of the trips,but not the end result.Additional sensitivity cases with the OEL1 trip timers set to 999 seconds but with the OEL1 runback function still active,the PT corner point (785,4062)had no voltage or frequency deviations and of course the unit does not trip. 6.7.Bridger /Anticline West vs.Idaho --Montana (Path 18) 6.7.1.Base Case Development The Gateway West Project base case was modified to stress Bridger /Anticline West to 4100 MW and Path 18 was controlled to 337 MW.The primary resource for stressing Bridger / Anticline West was the Wyoming Wind developments with fine tuning using schedules from WAPA (73)to Northwest (40).Path 18 flows were controlled by schedules from Montana (62) to Idaho (60)and adjustments of the Jefferson and Mill Creek phase shifters. Two margin test cases were developedwith 5%additional flows across 1)Bridger /Anticline West and 2)Path 18.These cases are shown near the bottom of Appendix 3-7. 6.7.2.Post-Transient Analysis Appendix 3-7 contains the tables associated with the post-transient study results for the import cases.A discussion of several of the prominent outages follows. Anticline -Populus 500 kV Line (ContingencyB01 and RAS variations) This outage results in overloads on the Bridger -3 Mile Knoll 345 kV line.In the cases,the line is rated at 1840 Amps and this loading information has been requested for design input to PacifiCorp to determine the magnitude of rating increase needed to rebuild the single conductor portions of the line capable of withstanding the most severe contingencies imposed by the Gateway West Project.Several RAS options are shown to allow selection of line upgrade costs vs.the risks inherent with RAS. Bridger-3 Mile Knoll 345 kV Line (ContingencyB04 and RAS variations) This outage results in voltage deviations and violations of the .87 pu voltage standard for the Path 18 buses.Follow-upcases were run with switching of the Kinport 345 kV shunt capacitor,Dillon 69 kV shunt capacitors c3 &c4,and a new 42 MVar shunt capacitor at Big Grassy 161 kV.These cases show the voltage problem resolved with the lowest voltage l1/24/2010 Gateway West Project -Bridger Study Area Page 25 of 150 WECC Phase 2 Project Rating Report shown to be .881 pu at Peterson Flat 230.The overload shown for E.Helena 69/100 kV #2 is the result of circulating reactive power (vars)between the two transformers at E.Helena.If the transformers were correctly modeled,the overload would be resolved. 3 Mile Knoll -Goshen 345 kV Line (ContingencyB06 and RAS variations) Contingency B06 results in overloads on the Grace -Soda 138 kV line.The follow-up case B06a,with the 3 Mile Knoll series capacitor bank bypassed,results in a violation of Montana's .90 pu voltage standard.A second follow-upcase (B06b),with switching of the Big Grassy 161 kV shunt capacitor fully resolves the voltage problem. Aeolus -Anticline 500 kV Line (ContingencyB35 and RAS variations) This contingency diverges without any RAS actions.However with RAS actions as noted for the B35g,(600 MW of Aeolus area generation dropping,500 kV switchable capacitors applied,additional 230kV capacitors at Mustang,Riverton,and additional capacitors on Path 18)fully resolves all voltage and loading problems. Bridger-Populus 345 kV Lines 1 &2 (CO2 and RAS variations) This outage results in overloads on the Bridger -3 Mile Knoll 345 kV line.However,as noted above,the loading numbers are to be used as a design input for rebuilding the limiting conductor sections.In follow-upcases,some voltage deviation problems are noted,but these issues are fully mitigated with RAS switching. Bridger-Populus &Bridger-3 Mile Knoll 345 kV Lines (CO3 and RAS variations) This outage resulted in voltage deviations on Path 18 buses.Follow-upcases with RAS switching of Path 18 shunt capacitors and load tripping via under-voltage relays results in acceptable performance. Palo Verde 2-unit loss with FACRI (N-2) This contingency,with FACRI action and Desert SW load dropping planned for this event resulted in overloads of several overloads includingthe Sigurd PS -Glen Canyon 230kV line.This line is loaded southbound in the base case,and this loading result may indicate a simultaneous flow relationship between Bridger /Anticline West and Tot 2B. 6.7.3.Reactive Margin Analysis Both corner points of the nomogram were tested with +5%flow cases as noted near the bottom of Appendix 3-7.Both corner +5%cases solved for all contingencies (with appropriate RAS actions),indicating sufficient reactive margins for both Level B and Level C contingencies. 11/24/2010 Gateway West Project -Bridger Study Area Page 26 of 150 WECC Phase 2 Project Rating Report Idaho's reactive margin requirements were also met for all contingencies (with appropriate RAS actions).While it would appear that the Level C (N-2)contingencies do not meet Idaho's reactive margin requirements,a review of the margin tables shows the lowest margins for contingencies CO3 &C04.Follow-upRAS scenarios fully resolve any margin deficiencies. 6.7.4.Transient Stability Analysis As shown on Appendix 4-7,dynamic simulations were run on the simultaneous flow corner point.Contingency B08 and B09 with RAS variations,resulted in back swing under-frequency deviations.However,these deviations are within the exceptions for Bridger that are filed with the WECC.See Appendix 21 for details of the TSS Approved exceptions for Bridger. Contingency Bl5 (Aeolus -Anticline 500 kV line)also producedvoltage and frequency deviations.However,these were mitigated with some of the RAS actions simulated in the post- transient contingencies. 6.8.Bridger /Anticline West vs.Monument --Naughton 6.8.1.Base Case Development The Gateway West Project base case was modified to stress Bridger /Anticline West to 4100 MW with several cases spanning a range of Monument -Naughton flows from 332 MW to 475 MW.The primary resource for stressing Bridger /Anticline West was the WyomingWind developments.Monument -Naughton flows were controlled by the Monument phase shifting transformers.Loads in the Trona area of SW Wyoming(Zone 668)were reduced by roughly 141 MW to prevent the Rock Springs /Firehole cut-plane from exceeding its 640 MW capacity. The resulting nomogram is shown on Appendix 2-8. Two margin test cases were developedwith 5%additional flows across 1)Bridger /Anticline West and 2)Monument -Naughton.These cases are shown near the bottom of Appendix 3-8. 6.8.2.Post-Transient Analysis Appendix 3-8 contains the tables associated with the post-transient study results for the import cases.A discussion of several of the prominent outages follows. Anticline -Populus 500 kV Line (ContingencyB01 and RAS variations) This outage results in overloads on the Bridger -3 Mile Knoll 345 kV line.In the cases,the line is rated at 1840 Amps and this loading information has been requested for design input to PacifiCorp to determine the magnitude of rating increase needed to rebuild the single conductor portions of the line capable of withstanding the most severe contingencies imposed by the Gateway West Project.Several RAS options are shown to allow selection of line upgrade costs vs.the risks inherent with RAS. 3 Mile Knoll -Goshen 345 kV Line (Contingencies B06 and B06a) 11/24/2010 Gateway West Project -Bridger Study Area Page 27 of 150 WECC Phase 2 Project Rating Report Contingency B06 results in overloads on the Grace -Soda 138 kV line.The follow-upcase B06a,with the 3 Mile Knoll series capacitor bank bypassed,fully resolves the overload. Aeolus -Anticline 500 kV Line (ContingencyB35 and RAS variations) This contingency diverges without any RAS actions.However with RAS actions as noted for the B35g,(600 MW of Aeolus area generation dropping,500 kV switchable capacitors applied,additional 230kV capacitors at Mustang,Riverton,and additional capacitors on Path 18)resolves the voltage deviation problems.This outage results in a slight overload (100.04%)on the Miners -Platte 230 kV line even with the 521 MVA 30 minute emergency rating,and thereby sets the PT limit for this contingency. Aeolus -Mona Annex (Clover)500 kV Line (ContingencyB36 and RAS variations) This contingency also diverges without any RAS actions.With 600 MW of generation dropping and 500 kV and 230 kV switchable capacitor applications,the contingency converges to a solution with no overloads. Bridger-Populus 345 kV Lines 1 &2 (CO2 and RAS variations) This outage results in overloads on the Bridger -3 Mile Knoll 345 kV line.However,as noted above,the loading numbers are to be used as a design input for rebuilding the limiting conductor sections.Some voltage deviation problems are noted,but these issues are fully mitigated with RAS switching. Bridger-Populus &Bridger-3 Mile Knoll 345 kV Lines (CO3 and RAS variations) This outage resulted in a voltage deviation at Populus 500 for the case with Bridger / Anticline West at 4100 MW.Follow-up RAS cases with Bridger gen tripping resolve the Populus deviation problem,but then created problems for Path 18 buses.The case with 475 MW on Monument -Naughton,this outage overloaded both Monument phase shifters. While RAS actions did help the loading situation,a better solution would be to adjust the phase shifter taps to reduce flows. Palo Verde 2-unit loss with FACRI (N-2) This contingency,with FACRI action and Desert SW load dropping planned for this event resulted in an overload of the Glen Canyon 345 /230 kV transformer.This overload arises when the generationat Glen Canyon is not correctly divided between the 230 kV and 345 kV 11/24/2010 Gateway West Project -Bridger Study Area Page 28 of 150 WECC Phase 2 Project Rating Report step-up buses.This is a known modeling problem and is unrelated to the Gateway West Project. 6.8.3.Reactive Margin Analysis Both corner points of the nomogram were tested with +5%flow cases as noted near the bottom of Appendix 3-8.Both corner +5%cases solved for all contingencies (with appropriate RAS actions),indicating sufficient reactive margins for both Level B and Level C contingencies. Idaho's reactive margin requirements were also met for all contingencies (with appropriate RAS actions). 6.8.4.Transient Stability Analysis As shown on Appendix 4-5,dynamic simulations were run on both nomogram corner points. Contingency B08 and B09 with RAS variations,resulted in back swing under-frequency deviations.However,these deviations are within the exceptions for Bridger that are filed with the WECC.See Appendix 21 for details of the TSS Approved exceptions for Bridger. Contingency Bl5 (Aeolus -Anticline 500 kV line)also producedvoltage and frequency deviations.However,these were mitigated with some of the RAS actions simulated in the PT contmgencies. 6.9.Bridger /Anticline West vs.Rock Springs /Firehole The Gateway West Project base case was modified to stress Bridger /Anticline West to 4100 MW with several cases spanning a range of Rock Springs /Firehole (RS/FH)West flows from 489 MW to 640 MW.The primary resource for stressing Bridger /Anticline West was the WyomingWind developments.RS/FH flows were controlled by adjustments to the Monument phase shifting transformers.The resulting nomogram is shown on Appendix 2-9. Two margin test cases were developedwith 5%additional flows across 1)Bridger /Anticline West and 2)RS/FH West.These cases are shown near the bottom of Appendix 3-9. 6.9.1.Post-Transient Analysis Appendix 3-9 contains the tables associated with the post-transient study results for the import cases.A discussion of several of the prominent outages follows. Anticline -Populus 500 kV Line (ContingencyB01 and RAS variations) This outage results in overloads on the Bridger -3 Mile Knoll 345 kV line.In the cases,the line is rated at 1840 Amps and this loading information has been requested for design input to PacifiCorp to determine the magnitude of rating increase needed to rebuild the single conductor portions of the line capable of withstanding the most severe contingencies 11/24/2010 Gateway West Project -Bridger Study Area Page 29 of 150 WECC Phase 2 Project Rating Report imposed by the Gateway West Project.Several RAS options are shown to allow selection of line upgrade costs vs.the risks inherent with RAS. 3 Mile Knoll -Goshen 345 kV Line (Contingencies B06 and B06a) Contingency B06 results in overloads on the Grace -Soda 138 kV line.The follow-upcase B06a,with the 3 Mile Knoll series capacitor bank bypassed,fully resolves the overload. Aeolus -Anticline 500 kV Line (ContingencyB35 and RAS variations) This contingency diverges without any RAS actions.However with RAS actions as noted for the B35g,(600 MW of Aeolus area generation dropping,500 kV switchable capacitors applied,additional 230kV capacitors at Mustang,Riverton,and additional capacitors on Path 18)resolves the voltage deviation problems.This outage results in a slight overload (100.05%)on the Miners -Platte 230 kV line even with the 521 MVA 30 minute emergency rating,and thereby sets the PT limit for this contingency. Aeolus -Mona Annex (Clover)500 kV Line (ContingencyB36 and RAS variations) This contingency also diverges without any RAS actions.With 600 MW of generation dropping and 500 kV and 230 kV switchable capacitor applications,the contingency converges to a solution with no overloads. Bridger-Populus 345 kV Lines 1 &2 (CO2 and RAS variations) This outage results in overloads on the Bridger -3 Mile Knoll 345 kV line.However,as noted above,the loading numbers are to be used as a design input for rebuilding the limiting conductor sections.Some voltage deviation problems are noted,but these issues are fully mitigated with RAS switching. Palo Verde 2-unit loss with FACRI (N-2) This contingency,with FACRI action and Desert SW load dropping planned for this event resulted in an overload of the Glen Canyon 345 /230 kV transformer.This overload arises when the generationat Glen Canyon is not correctly divided between the 230 kV and 345 kV step-up buses.This is a known modeling problem and is unrelated to the Gateway West Project. 11/24/2010 Gateway West Project -Bridger Study Area Page 30 of 150 WECC Phase 2 Project Rating Report 6.9.2.Reactive Margin Analysis Both corner points of the nomogram were tested with +5%flow cases as noted near the bottom of Appendix 3-9.Both corner +5%cases solved for all contingencies (with appropriate RAS actions),indicating sufficient reactive margins for both Level B and Level C contingencies. Idaho's reactive margin requirements were also met for all contingencies (with appropriate RAS actions). 6.9.3.Transient Stability Analysis As shown on Appendix 4-5,dynamic simulations were run on both nomogram corner points. Contingency B08 and B09 with RAS variations,resulted in back swing under-frequency deviations.However,these deviations are within the exceptions for Bridger that are filed with the WECC.See Appendix 21 for details of the TSS Approved exceptions for Bridger. Contingency Bl5 (Aeolus -Anticline 500 kV line)also producedvoltage and frequency deviations.However,these were mitigated with some of the RAS actions simulated in the PT contmgencies. 6.10.Bridger /Anticline West with the MSTI Project 6.10.1.Base Case Development The Gateway West Project base case was modified to stress Bridger /Anticline West to 4100 MW simultaneous with the MSTI project at 1496 MW.Resources for the majorityof the schedules were from three 450 MW equivalent wind models represented near Townsend, Montana.To fully load the MSTI project,other Montana generation was increased and scheduled to Idaho and the Northwest. Two margin test cases were developedwith 5%additional flows across 1)Bridger /Anticline West and 2)The MSTI project.These cases are shown near the bottom of Appendix 3-10.The resulting nomogram is shown on Appendix 2-10. 6.10.2.Post-Transient Analysis Appendix 3-10 contains the tables associated with the post-transient study results for the import cases.A discussion of several of the prominent outages follows. Anticline -Populus 500 kV Line (ContingencyB01 and RAS variations) This outage results in overloads on the Bridger -3 Mile Knoll 345 kV line.In the cases,the line is rated at 1840 Amps and this loading information has been requested for design input to PacifiCorp to determine the magnitude of rating increase needed to rebuild the single conductor portions of the line capable of withstanding the most severe contingencies imposed by the Gateway West Project.Several RAS options are shown to allow selection of line upgrade costs vs.the risks inherent with RAS. 11/24/2010 Gateway West Project -Bridger Study Area Page 31 of 150 WECC Phase 2 Project Rating Report Anticline -Populus 500 kV Line (ContingencyB01 and RAS variations) This outage results in overloads on the Bridger -3 Mile Knoll 345 kV line.In the cases,the line is rated at 1840 Amps and this loading information has been requested for design input to PacifiCorp to determine the magnitude of rating increase needed to rebuild the single conductor portions of the line capable of withstanding the most severe contingencies imposed by the Gateway West Project.Several RAS options are shown to allow selection of line upgrade costs vs.the risks inherent with RAS. Aeolus -Anticline 500 kV Line (ContingencyB35 and RAS variations) This contingency diverges without any RAS actions.However with RAS actions as noted for the B35g,(600 MW of Aeolus area generationdropping,500 kV switchable capacitors applied,additional 230kV capacitors at Mustang,Riverton,and additional capacitors on Path 18)does not quite resolve the voltage deviation problems until Path 18 is reduced to 287 MW. Bridger-Populus 345 kV Lines 1 &2 (CO2 and RAS variations) This outage results in overloads on the Bridger -3 Mile Knoll 345 kV line.However,as noted above,the loading numbers are to be used as a design input for rebuilding the limiting conductor sections.The Bridger -Rock Spring 230 kV line is also overloaded.But this loading and the voltage deviation problems are mitigated with RAS switching. Bridger-Populus &Bridger-3 Mile Knoll 345 kV Lines (CO3 and RAS variations) This outage resulted in an overload of the Bridger -Rock Springs 230kV line.Follow-up cases with Bridger generation dropping and additional RAS action on Path 18 resolved both the loading problem and the voltage deviation issues on Path 18. Palo Verde 2-unit loss with FACRI (N-2) This contingency,with FACRI action and Desert SW load dropping planned for this event resulted in overloads of Springer -Gladstone l15 kV line.Springer -Gladstone is a known problem for which remediation is already planned.This contingency also had 7 voltage deviations in the New Mexico system. 6.10.3.Reactive Margin Analysis Margin cases from the point with simultaneous flows on Bridger /Anticline West and the MSTI Project were tested with +5%flow cases as noted near the bottom of Appendix 3-10.Both +5%cases solved for all contingencies (with appropriateRAS actions),indicating sufficient 11/24/2010 Gateway West Project -Bridger Study Area Page 32 of 150 WECC Phase 2 Project Rating Report reactive margins for both Level B and Level C contingencies.Idaho's reactive margin requirements were also met for all contingencies (with appropriate RAS actions). 6.10.4.Transient Stability Analysis As shown on Appendix 4-9,dynamic simulations were run on the one simultaneous case. Contingency B08 and B09 with RAS variations,resulted in back swing under-frequency deviations.However,these deviations are within the exceptions for Bridger that are filed with the WECC.See Appendix 21 for details of the TSS Approved exceptions for Bridger. Contingency Bl5 (Aeolus -Anticline 500 kV line)also producedvoltage and frequency deviations.However,these were mitigated with some of the RAS actions simulated in the PT contmgencies. 6.11.Path C Southbound vs.Idaho --Montana (Path 18) 6.11.1.Base Case Development The Gateway West Project base case was modified to stress Path C North to South flows to 2250 MW simultaneous with stressed Path 18 North to South flows.Two base cases were developed. The first case included Path 18 Shunt Additions while the second case did not.Without the Path 18 Shunt Additions,Path 18 North to South flows were limited to 285 MW.With the Path 18 Shunt Additions,Path 18 North to South flows were limited to the current Path 18 transfer limit of 337 MW.The Path 18 Shunt Additions include switchable capacitor banks at the Amps, Peterson Flat,Big Grassy,and Dillon stations. Multiplemargin test cases were developed with 5%additional flows across Path C and Path 18. These cases are shown near the bottom of Appendix 3-11. The resulting nomogram is shown on Appendix 2-10. 6.11.2.Post-Transient Analysis Appendix 3-10 contains the tables associated with the post-transient study results for the import cases with and without Path 18 Shunt Additions.A discussion of several of the prominent outages follows. Anticline -Populus 500 kV Line (ContingencyB01 and RAS variations) When applied to the case without the Path 18 Shunt Additions,this outage results in overloads on the Bridger -3 Mile Knoll 345 kV line.In the cases,the line is rated at 1840 Amps and this loading information has been requested for design input to PacifiCorp to determine the magnitude of rating increase needed to rebuild the single conductor portions of the line capable of withstanding the most severe contingencies imposed by the Gateway West 11/24/2010 Gateway West Project -Bridger Study Area Page 33 of 150 WECC Phase 2 Project Rating Report Project.Several RAS options are shown to allow selection of line upgrade costs vs.the risks inherent with RAS. When Contingency B01 was applied to the case with the Path 18 Shunt Additions,this outage didn't result in any overloads or voltage issues. 3 Mile Knoll -Goshen 345kV Line (ContingenevB06 and RAS variations) In both cases (with and without the Path 18 Shunt Additions),this outage without RAS resulted in overloads of the Grace -Soda and 3 Mile Knoll -Soda 138 kV lines.Bypassing the 1/2 the series capacitor in the Bridger -3 Mile Knoll 345kV line mitigates both of these overloads. Aeolus -Anticline 500 kV Line (ContingencyB35 and RAS variations) In the case without the Path 18 Shunt Additions,this outage resulted in overloads on the Dave Johnston -Dave Johnston South Tap 115 kV line and the Bridger 345/230kV Bank #2. In the case with the Path 18 Shunt Additions,this outage resulted in overloads on the Dave Johnston -Dave Johnston South Tap 115 kV line only.In both cases,the RAS actions as noted for disturbance B35a (600 MW of Aeolus area generation dropping,500 kV switchable capacitors applied at Aeolus,and additional 230kV capacitors applied at Aeolus,Atlantic, Miners and Platt)resolved these overloads. Aeolus -Mona Annex (Clover)500 kV Line (ContingencyB36 and RAS variations) In both cases (with and without the Path 18 Shunt Additions),this disturbance without any RAS actions caused the cases to diverge.With 600 MW of generation dropping and 500 kV and 230 kV switchable capacitor applications,the contingency problems are fully resolved. Bridger-Populus 345 kV Lines 1 &2 (CO2 and RAS variations) In both cases (with and without the Path 18 Shunt Additions),this disturbance without any RAS actions caused overloads on the Bridger -3 Mile Knoll 345 kV and Grace -Soda 138kV lines.RAS action,as noted for disturbance CO2a (Tripping of a Bridger Unit), resolved these overloads. Bridger-Populus &Bridger-3 Mile Knoll 345 kV Lines (CO3 and RAS variations) In the case without the Path 18 Shunt Additions,this disturbance was limitingfor Path 18 flows.Outage CO3 caused the voltage at the PTRSNFUR 69kV bus to drop to 0.90 pu. Increasing Path 18 flows to levels greater than 285MW North to South caused post- contingency voltages at the PTRSNFUR 69kV bus to drop below 0.90 pu.In addition,the RAS variations of disturbance CO3,includingCO3a and CO3b (dropping one or two Bridger units),caused the post-contingency voltages at the PTRSNFUR 69kV bus to be worse.Since 11/24/2010 Gateway West Project -Bridger Study Area Page 34 of 150 WECC Phase 2 Project Rating Report disturbances CO3d and CO3e both include Path 18 shunts addition switching,they were not applied to the case. Without the Path 18 Shunt Additions,this outage limited Path 18 flows to 285 MW North to South.With the Path 18 Shunt Additions and their employment in outage CO3d and CO3e, Path 18's transfer limit is maintained at 337 MW North to South. Populus -Ben Lomond 345 kV #2 and #3 Double Line Outage (C06 and RAS variations) In both cases (with and without the Path 18 Shunt Additions),this outage resulted in an overload of the Grace -Soda 138 kV line.In the case with Path 18 shunts,this outage also resulted in an overload of the 3 Mile Knoll -Soda 138 kV line.Bypassing the 1/2 the series capacitor in the Bridger -3 Mile Knoll 345kV line mitigates these overloads. Populus -Terminal 345 kV +Treasureton -Brady 230 kV Lines Outage (C12) In the case without the Path 18 Shunt Additions,this outage resulted in an overload of the Grace -Soda 138 kV line.Bypassing the 1/2 the series capacitor in the Bridger -3 Mile Knoll 345kV line mitigates both of these overloads.In the case with the Path 18 Shunt Additions,no emergency overloadswere encountered. 6.11.3.Reactive Margin Analysis From the base cases,margin cases (with and without Path 18 Shunt Additions)were created.The margin cases stressed Path 18 North to South and Path C North to South flows by an additional +5%as noted near the bottom of Appendix 3-11.All +5%cases solved for all contingencies (with appropriate RAS actions),indicating sufficient reactive margins for both Level B and Level C contingencies.Idaho's reactive margin requirements were also met for all contingencies (with appropriate RAS actions). 6.11.4.Transient Stability Analysis As shown on Appendix 4-11,dynamic simulations were run on the simultaneous cases (with and without Path 18 Shunt Additions).Contingency B09 resulted in back swing under-frequency deviations that exceed the standard WECC frequency deviation criteria for load buses,but did not exceed PacifiCorp's frequency deviation exception for Bridger unit buses on file with WECC.All the other disturbances modeled did not result in transient stability problems or criteria violations. 6.12.Path C Southbound vs.Bonanza West 6.12.1.Base Case Development 11/24/2010 Gateway West Project -Bridger Study Area Page 35 of 150 WECC Phase 2 Project Rating Report The Gateway West Project base case was modified to stress Path C North to South flows simultaneous with stressed Bonanza West (Path 33)flows.Two base cases were developed.The first case included Path C set at 2250 MW North to South with Bonanza West simultaneously set at 749 MW.The second case included Path C set at 1849 MW North to South with Bonanza West simultaneously set at 785 MW,Path 33's current transfer limit. Multiplemargin test cases were developed with 5%additional flows across Path C and Bonanza West.These cases are shown near the bottom of Appendix 3-12. The resulting nomogram is shown on Appendix 2-11. 6.12.2.Post-Transient Analysis Appendix 3-12 contains the tables associated with the post-transient study results for the import cases.A discussion of several of the prominent outages follows. Anticline -Populus 500 kV Line (ContingencyB01 and RAS variations) This outage results in overloads on the Bridger -3 Mile Knoll 345 kV line.In the cases,the line is rated at 1840 Amps and this loading information has been requested for design input to PacifiCorp to determine the magnitude of rating increase needed to rebuild the single conductor portions of the line capable of withstanding the most severe contingencies imposed by the Gateway West Project.Several RAS options are shown to allow selection of line upgrade costs vs.the risks inherent with RAS. 3 Mile Knoll -Goshen 345kV Line (ContingencyB06 and RAS variations) In both cases,this outage without RAS resulted in overloads of the Grace -Soda and 3 Mile Knoll -Soda 138 kV lines.Bypassing the 1/2 the series capacitor in the Bridger -3 Mile Knoll 345kV line mitigates the loading on the 3 Mile Knoll -Soda 138 kV line entirely. However,bypassing the 1/2 the series capacitor in the Bridger -3 Mile Knoll 345kV line mitigates the loading on the Grace -Soda 138 kV line to approximately 101%of its emergency ratmg. Aeolus -Anticline 500 kV Line (ContingencyB35 and RAS variations) In the case with Path C stressed at 2250 MW North to South and Bonanza West at 749 MW, this outage resulted in overloads on the Platt -Latham and Miners -Platt 230kV lines as well as voltage deviations greater than 5%on many buses.The RAS actions as noted for disturbance B35a,(600 MW of Aeolus area generation dropping,500 kV switchable capacitors applied at Aeolus,and additional 230kV capacitors applied at Aeolus,Atlantic, Miners and Platt)resolved these overloads and voltage deviations. In the case with Bonanza West stressed at 785 MW and Path C at 1849 MW North to South, this outage resulted in the following:overloads on all three Bridger 345/230 kV banks,the Platt -Latham 230kV line,Miners -Platt 230kV line and Bar X-Echo Springs 230kV line; voltage deviations greater than 5%on many buses;and post-contingency voltages in Wyominglower than 0.9 pu.The RAS actions,as noted for disturbance B35a,were enough 11/24/2010 Gateway West Project -Bridger Study Area Page 36 of 150 WECC Phase 2 Project Rating Report to mitigate the emergency overloads;however,they were not enough to mitigate the bus voltage deviations.The RAS actions as noted for disturbance B35d (600 MW of Aeolus area generationdropping,500 kV switchable capacitors applied at Aeolus,and additional 230kV capacitors applied at Aeolus,Atlantic,Miners,Platt,Mustang and Riverton)resolved the remaining voltage deviations. Aeolus -Mona Annex (Clover)500 kV Line (ContingencyB36 and RAS variations) This disturbance without any RAS measures caused both cases to diverge.With 600 MW of generationdropping and 500 kV and 230 kV switchable capacitor applications (outage B36a),the cases exhibited enough reactive margin to solve. In the case with Path C stressed at 2250 MW North to South and Bonanza West at 749 MW, an overload on the Grace -Soda 138 kV line still remained even with the RAS actions employed for disturbance B36a.The additional RAS measure of bypassing the 1/2 the series capacitor in the Bridger -3 Mile Knoll 345kV line mitigated the Grace -Soda 138 kV line overload. In the case with Bonanza West stressed at 785 MW and Path C at 1849 MW North to South, the RAS actions as noted for B36a were sufficient to mitigate all emergency overloads and voltage deviations. Bonanza -Mona 345kV Line (ContingencyB40 and RAS variations) In the case with Path C stressed at 2250 MW North to South and Bonanza West at 749 MW, this outage resulted in overloads on the Emma Park -Upalco,Emma Park -Panther and Panther -Carbon 138kV lines as well as voltage deviations greater than 5%on a few buses near Upalco.In the case with Bonanza West stressed at 785 MW and Path C at 1849 MW North to South,this outage resulted in overloads on the Emma Park -Upalco,Emma Park - Panther and Panther -Carbon,Bonanza-Vernal 138kV lines as well as the Flaming Gorge 230/138 kV bank #2.This outage also resulted in voltage deviations greater than 5%on a few buses near Upalco.The RAS actions as noted for disturbance B40a,(Trippinga Bonanza Unit)resolved these overloads and voltage deviations.In both cases,Path C and Bonanza West flows were limited by disturbance C04a with RAS tripping of a Bonanza unit and the subsequent overload of the Emma Park -Upalco 138kV line. Bridger-Populus 345 kV Lines 1 &2 (CO2 and RAS variations) In both cases,this disturbance without any RAS actions caused overloads on the Bridger -3 Mile Knoll 345 kV and Grace -Soda 138kV lines.RAS action,as noted for disturbance CO2a (Trippingof a Bridger Unit),resolved the Grace -Soda 138kV line overloads.The Bridger -3 Mile Knoll 345kV line remained overloaded in both cases.Trippingtwo Bridger units will mitigate the loading on the Bridger -3 Mile Knoll 345kV line;however,the voltage drop around Path 18 starts to become an issue in the case with Path C stressed at 2250 MW North to South and Bonanza West at 749 MW.After the tripping two units,the 11/24/2010 Gateway West Project -Bridger Study Area Page 37 of 150 WECC Phase 2 Project Rating Report post-contingency bus voltage at the PTRSNFUR 69.0 bus was 0.899 pu,which is right at the limit of 0.9 pu. Bridger-Populus &Bridger-3 Mile Knoll 345 kV Lines (CO3 and RAS variations) Disturbance CO3 without any RAS actions caused the case with Path C at 2250 MW North to South and Bonanza West at 749 MW to diverge.Conversely,the case with Bonanza West at 785 MW and Path C at 1849 MW North to South solved followingdisturbance CO3.Both cases solved followingCO3a (CO3 plus RAS Tripping of one Bridger Unit)and CO3b (CO3 plus RAS Tripping of two Bridger Unit);however,the RAS tripping of the Bridger units followingdisturbance CO3 caused the voltage at the PTRSNFUR 69kV bus to get worse (less than 0.9 pu).Both cases solved followingdisturbance CO3d (CO3 plus RAS Tripping of one Bridger unit plus RAS switching of capacitors at Amps and Big Grassy stations)exhibited acceptable voltages in Wyomingand near Path 18.The Amps and Big Grassy capacitors switched as part of the remedial action for disturbance CO3 are part of the Path 18 Shunt Additions. Populus -Ben Lomond 345 kV #2 and #3 Double Line Outage (C06 and RAS variations) In the case with Path C at 2250 MW North to South and Bonanza West at 749 MW,this outage resulted in an overload of the Grace -Soda 138 kV line.Bypassing the 1/2 the series capacitor in the Bridger -3 Mile Knoll 345kV line mitigates this overload. Palo Verde 2-unit loss with FACRI (N-2) This contingency,with FACRI action and Desert SW load dropping planned for this event, resulted in overloads of Springer -Gladstone l15 kV line.Springer -Gladstone is a known problem for which remediation is already planned. 6.12.3.Reactive Margin Analysis From the base cases,margin cases were created.The margin cases stressed Bonanza West and Path C North to South flows by an additional +5%as noted near the bottom of Appendix 3-12. All +5%cases solved for all contingencies (with appropriate RAS actions),indicating sufficient reactive margins for both Level B and Level C contingencies.Idaho's reactive margin requirements were also met for all contingencies (with appropriate RAS actions). 6.12.4.Transient Stability Analysis As shown on Appendix 4-12,dynamic simulations were run on the simultaneous cases. Contingency B08 and B09 resulted in back swing under-frequency deviations that exceed the standard WECC frequency deviation criteria for load buses,but did not exceed PacifiCorp's frequency deviation exception for Bridger unit buses on file with WECC. 11/24/2010 Gateway West Project -Bridger Study Area Page 38 of 150 WECC Phase 2 Project Rating Report In the case with Path C at 2250 MW North to South and Bonanza West at 749 MW,all the other disturbances modeled did not result in transient stability problems or criteria violations. In the case with Bonanza West at 785 MW and Path C at 1849 MW North to South,disturbances Bl5 (Aeolus -Anticline 500 kV Line)and Bl6 (Aeolus -Mona Annex (Clover)500 kV Line) caused voltage dips exceeding 20%for 20 cycles or more at multipleload buses.Disturbances Bl5a and Bl6a with RAS (tripping 600 MW of Aeolus units and insertion of capacitors at the Aeolus 500kV bus and at the Aeolus,Miners,Platt and Atlantic 230kV buses)mitigated the voltage dips noted. 6.13.Path C Southbound with the MSTI Project 6.13.1.Base Case Development The Gateway West Project base case was modified by the addition of the MSTI project.The case was further modified by stressing Path C North to South flows simultaneous with MSTI Project flows.One base case was developedwith Path C set at 2250 MW North to South and MSTI Phase Shifter flow simultaneously set at 1500 MW.To achieve a Phase Shifter flow of 1500 MW,it was necessary to dispatch 800 MW of total MSTI generation Multiplemargin test cases were developed with 5%additional flows across Path C and the MSTI Phase Shifter.These cases are shown near the bottom of Appendix 3-13. The resulting nomogram is shown on Appendix 2-12. 6.13.2.Post-Transient Analysis Appendix 3-13 contains the tables associated with the post-transient study results for the import cases.A discussion of several of the prominent outages follows. Anticline -Populus 500 kV Line (ContingencyB01 and RAS variations) This outage results in an overload on the Bridger -3 Mile Knoll 345 kV line.In the cases, the line is rated at 1840 Amps and this loading information has been requested for design input to PacifiCorp to determine the magnitude of rating increase needed to rebuild the single conductor portions of the line capable of withstanding the most severe contingencies imposed by the Gateway West Project.Several RAS options are shown to allow selection of line upgrade costs vs.the risks inherent with RAS. 3 Mile Knoll -Goshen 345kV Line (ContingenevB06 and RAS variations) This outage without RAS resulted in overloads of the Grace -Soda and 3 Mile Knoll -Soda 138 kV lines.Bypassing the 1/2 the series capacitor in the Bridger -3 Mile Knoll 345kV line mitigates both of these overloads. 11/24/2010 Gateway West Project -Bridger Study Area Page 39 of 150 WECC Phase 2 Project Rating Report Aeolus -Anticline 500 kV Line (ContingencyB35 and RAS variations) This outage resulted in voltage deviations greater than 5%on many buses.The RAS actions, as noted for disturbance B35a (600 MW of Aeolus area generation dropping,500 kV switchable capacitors applied at Aeolus,and additional 230kV capacitors applied at Aeolus, Atlantic,Miners and Platt),resolved the voltage deviations. Bonanza -Mona 345kV Line (ContingencyB40 and RAS variations) This outage resulted in overloads on the Emma Park -Upalco,Emma Park -Panther and Panther -Carbon 138kV lines.The RAS actions,as noted for disturbance B40a (Tripping a Bonanza Unit),resolved these overloads. Bridger-Populus 345 kV Lines 1 &2 (CO2 and RAS variations) This disturbance without any RAS actions caused overloads on the Bridger -3 Mile Knoll 345 kV and Grace -Soda 138kV lines.RAS action,as noted for disturbance CO2a (Tripping of one Bridger Unit),resolved the Grace -Soda 138kV line overload.The Bridger -3 Mile Knoll 345kV line remained slightly overloaded.Tripping of two Bridger units,as modeled in disturbance CO2b,resolved both overloads. Populus -Ben Lomond 345 kV #2 and #3 Double Line Outage (C06 and RAS variations) This outage resulted in an overload of the Grace -Soda 138 kV line.Bypassing the 1/2 the series capacitor in the Bridger -3 Mile Knoll 345kV line mitigates this overload. Palo Verde 2-unit loss with FACRI (N-2) This contingency,with FACRI action and Desert SW load dropping planned for this event, resulted in overloads of Springer -Gladstone l15 kV line.Springer -Gladstone is a known problem for which remediation is already planned. 6.13.3.Reactive Margin Analysis From the base cases,margin cases were created.The margin cases stressed MSTI and Path C North to South flows by an additional +5%as noted near the bottom of Appendix 3-13.All +5%cases solved for all contingencies (with appropriateRAS actions),indicating sufficient reactive margins for both Level B and Level C contingencies.Idaho's reactive margin requirements were also met for all contingencies (with appropriate RAS actions). 6.13.4.Transient Stability Analysis As shown on Appendix 4-12,dynamic simulations were run on the simultaneous cases. Contingency B09 resulted in back swing under-frequency deviations that exceed the standard 11/24/2010 Gateway West Project -Bridger Study Area Page 40 of 150 WECC Phase 2 Project Rating Report WECC frequency deviation criteria for load buses,but did not exceed PacifiCorp's frequency deviation exception for Bridger unit buses on file with WECC. 6.14.Path C Southbound vs.Monument --Naughton 6.14.1.Base Case Development The Gateway West Project base case was modified to stress Path C Southboundto 2250 MW with Monument -Naughton flows at 475 MW.Path C was stressed by reducing generationin Utah and increasing generation in the Pacific Northwest.Monument -Naughton flows were controlled by the Monument phase shifting transformers.Loads in the Trona area of SW Wyoming(Zone 668)were reduced by roughly356 MW to prevent normal overloads of the Rock Springs -Palisades 230kV Line.The resulting nomogram is shown on Appendix 2-13. Two margin test cases were developedwith 5%additional flows across 1)Path C Southbound and 2)Monument -Naughton.These cases are shown near the bottom of Appendix 3-14. 6.14.2.Post-Transient Analysis Appendix 3-14 contains the tables associated with the post-transient study results for the import cases.A discussion of several of the prominent outages follows. 3 Mile Knoll -Goshen 345 kV Line (Contingencies B06 and B06a) Contingency B06 results in an overload on the Grace -Soda 138 kV line.The RAS modeled in outage B06a,which included bypassing 1/2 of the 3 Mile Knoll series capacitor bank, resolved the overload. Aeolus -Anticline 500 kV Line (ContingencyB35 and RAS variations) Contingency B35 diverged without any RAS actions.The RAS actions,as noted for the B35d (600 MW of Aeolus area generation dropping,500 kV switchable capacitors applied at Aeolus and additional 230kV capacitors at Aeolus,Atlantic,Miners,Platt,Mustang,and Riverton),resolved the voltage deviation problems. Aeolus -Mona Annex (Clover)500 kV Line (ContingencyB36 and RAS variations) Contingency B36 diverged without any RAS actions.The RAS actions,as noted for the B36v (600 MW of Aeolus area generation dropping,500 kV switchable capacitors applied at Aeolus,Anticlin,Populus,additional 230kV capacitors at Aeolus,Atlantic,Miners,Platt, Mustang,Riverton and Chappel,as well as one 345kV capacitor at Kinport),resolved the divergence and didn't produce any WECC criteria violations. Bonanza -Mona 345kV Line (ContingencyB40 and RAS variations) 11/24/2010 Gateway West Project -Bridger Study Area Page 41 of 150 WECC Phase 2 Project Rating Report Outage B40 resulted in overloads on the Bonanza -Vernal,Emma Park -Upalco,Emma Park -Panther and Panther -Carbon 138kV lines,Flaming Gorge 230/138kV Transformer #2 as well as voltage deviations greater than 5%on a few buses near Upalco.The RAS actions, as noted for contingency B40a (Tripping a Bonanza Unit),resolved these overloads and voltage deviations. Bridger-Populus 345 kV Lines 1 &2 (CO2 and RAS variations) Outage CO2 resulted in an overload on the Bridger -3 Mile Knoll 345 kV line.As noted above,the loading numbers will be used as a design input for rebuilding the limiting conductor sections.The overload was fully mitigated with RAS switching of one Bridger unit as modeled in outage CO2a. Bridger-Populus &Bridger-3 Mile Knoll 345 kV Lines (CO3 and RAS variations) Outage CO3 resulted in an overload on the Bridger-Rock Springs 230kV line and a low voltage on a single bus (PTRSNFUR 69.0)near Path 18.RAS actions,as noted for the CO3d (Tripping of Bridger unit and additional switchable capacitors applied at Big Grassy 161 kV and Amps 230kV buses),resolved the overload and low voltage problems. 6.14.3.Reactive Margin Analysis Both corner points of the nomogram were tested with +5%flow cases as noted near the bottom of Appendix 3-14.Both corner +5%cases solved for all contingencies (with appropriate RAS actions),indicating sufficient reactive margins for both Level B and Level C contingencies. Idaho's reactive margin requirements were also met for all contingencies (with appropriate RAS actions). 6.14.4.Transient Stability Analysis As shown on Appendix 4-14,dynamic simulations were run for various contingencies. Contingency B08 and B09 with RAS variations resulted in back swing under-frequency deviations;however,these deviations are within the exceptions for Bridger that are filed with the WECC.See Appendix 21 for details of the TSS Approved exceptions for Bridger. Contingency Bl5 (Aeolus -Anticline 500 kV line)also produced voltage deviations,which were mitigated with some of the RAS actions simulated in the PT contingencies. 6.15.Path C Southbound vs.Rock Springs -Firehole 6.15.1.Base Case Development The Gateway West Project base case was modified to stress Path C Southboundto 2250 MW with Rock Springs /Firehole West flows at 640 MW.Path C was stressed by reducing generation in Utah and increasing generation in the Pacific Northwest.Rock Springs /Firehole 11/24/2010 Gateway West Project -Bridger Study Area Page 42 of 150 WECC Phase 2 Project Rating Report West flows were controlled by the Monument phase shifting transformers.The resulting nomogram is shown on Appendix 2-14. Two margin test cases were developedwith 5%additional flows across 1)Path C Southbound and 2)Rock Springs /Firehole West.These cases are shown near the bottom of Appendix 3-15. 6.15.2.Post-Transient Analysis Appendix 3-15 contains the tables associated with the post-transient study results for the import cases.A discussion of several of the prominent outages follows. 3 Mile Knoll -Goshen 345 kV Line (Contingencies B06 and B06a) Contingency B06 results in an overload on the Grace -Soda 138 kV line.The RAS modeled in outage B06a,which included bypassing 1/2 of the 3 Mile Knoll series capacitor bank, resolved the overload. Aeolus -Anticline 500 kV Line (ContingencyB35 and RAS variations) Contingency B35 without any RAS actions produced several voltage deviations greater than 5%,low voltages in Wyoming and various emergency overloads.The worst emergency overload occurred on the Platt -Latham 230kV line at 111%.,and the worst voltage deviation (17.4%)occurred at the Latham 34.5kV bus.Correspondingly,the lowest voltage (0.838 pu)was experiencedoccurred at the Bairoil 115kV bus.The RAS actions,as noted for the B35d,(600 MW of Aeolus area generation dropping,500 kV switchable capacitors applied at Aeolus and additional 230kV capacitors at Aeolus,Atlantic,Miners,Platt, Mustang,and Riverton)resolved all the voltage deviations,low voltages and emergency overloads. Aeolus -Mona Annex (Clover)500 kV Line (ContingencyB36 and RAS variations) Contingency B36 diverged without any RAS actions.The RAS actions,as noted for the B36v (600 MW of Aeolus area generation dropping,500 kV switchable capacitors applied at Aeolus,Anticlin,Populus,additional 230kV capacitors at Aeolus,Atlantic,Miners,Platt, Mustang,Riverton and Chappel,as well as one 345kV capacitor at Kinport),resolved the divergence and didn't produce any WECC criteria violations. Bonanza -Mona 345kV Line (ContingencyB40 and RAS variations) Outage B40 resulted in overloads on the Bonanza -Vernal,Emma Park -Upalco,Emma Park -Panther and Panther -Carbon 138kV lines,Flaming Gorge 230/138kV Transformer #2 as well as voltage deviations greater than 5%on a few buses near Upalco.The RAS actions as noted for disturbance B40a,(Trippinga Bonanza Unit)resolved these overloads and voltage deviations. Bridger-Populus 345 kV Lines 1 &2 (CO2 and RAS variations) 11/24/2010 Gateway West Project -Bridger Study Area Page 43 of 150 WECC Phase 2 Project Rating Report Outage CO2 resulted in an overload on the Bridger -3 Mile Knoll 345 kV line.As noted above,the loading numbers will be used as a design input for rebuilding the limiting conductor sections.The overload was fully mitigated with RAS switching of one Bridger unit as modeled in outage CO2a. Bridger-Populus &Bridger-3 Mile Knoll 345 kV Lines (CO3 and RAS variations) This outage resulted a low voltage on a bus (PTRSNFUR 69.0)near Path 18.RAS actions, as noted for the CO3d (Tripping of Bridger unit and additional switchable capacitors applied at Big Grassy 161 kV and Amps 230kV buses),resolved the low voltage problems. Populus -Ben Lomond 345 kV Double Line Outage (Contingencies C06 and C06k) Contingency C06 resulted in an overload on the Grace -Soda 138 kV line.Bypassing 1/2 of the 3 Mile Knoll series capacitor as modeled in outage C06k fully resolved the overload. 6.15.3.Reactive Margin Analysis Both corner points of the nomogram were tested with +5%flow cases as noted near the bottom of Appendix 3-15.Both corner +5%cases solved for all contingencies (with appropriate RAS actions),indicating sufficient reactive margins for both Level B and Level C contingencies. Idaho's reactive margin requirements were also met for all contingencies (with appropriate RAS actions). 6.15.4.Transient Stability Analysis As shown on Appendix 4-15,dynamic simulations were run for various contingencies. Contingency B08 and B09 with RAS variations resulted in back swing under-frequency deviations;however,these deviations are within the exceptions for Bridger that are filed with the WECC.See Appendix 21 for details of the TSS Approved exceptions for Bridger. Contingency Bl5 (Aeolus -Anticline 500 kV line)also produced voltage deviations,which were mitigated with some of the RAS actions simulated in the PT contingencies. 7.Contingencies Studied A list of the studied contingencies are located in Appendix A 11/24/2010 Gateway West Project -Bridger Study Area Page 44 of 150 WECC Phase 2 Project Rating Report 8.Study Conclusions /Recommendations Results of the simultaneous path interaction studies are summarized in Table 2. Table 2 Simultaneous Max Path FlowsPrimaryPathSecondaryPath.CommentsLimitationsPrimarySecondary Aeolus West;Aeolus South Flow Nomogram 2672 1700 Bonanza West Nomogram 2672 785 Tot la 2672 650 Bridger /Anticline West Aeolus South Flow Nomogram 4095 1700 Primary Path to be increased to 4100 MW Path C Southbound Nomogram 4100 2250 Bonanza West Nomogram 4100 785 Path 18 No Restrictions 4100 337 Path 18 @ 337 Achieved w/Caps Added MSTI Project No Restrictions 4100 1500 Monument-Naughton Nomogram 4100 475 Rock Spgs /Firehole West Nomogram 4100 640 Path C Southbound;Path 18 Nomogram 2250 337 Path 18 @ 337 Achieved w/Caps Added Bonanza West Nomogram 2250 785 MSTI Project No Restrictions 2250 1500 Monument-Naughton Nomogram Internal Path -To be addedafter PRG Review Rock Spgs /Firehole West Nomogram Internal Path -To be addedafter PRG Review Throughoutthe studies,the Bridger West 345 Path was modeled at 2400 MW with reductions in Bridger /Anticline West flows taken entirelyon the Anticline -Populus 500 kV line.Although this path uprate was not specifically requested in the study plan goals,in conjunctionwith the Gateway West system,a Bridger West 2400 MW rating is proven by this study. As can be seen from the post-transient results tables,for contingencies involvingthe Aeolus - Anticline 500 kV and Aeolus -Mona Annex (Clover)500 kV lines have varyingneeds for RAS switching to achieve post-transient solutions and acceptable voltage deviations.Details of transfer levels commensurate with RAS generation tripping and capacitor switching will need to be determined in additional studies prior to operation.It is expected that additional studies will need to be developed to determine operating limits as the various components of the Gateway West facilities are energized. During the course of this study,post-transient voltage deviations and violations of the .90 pu local voltage criteria were noted to be limiting for the most critical contingencies.As a relatively economical expansion of transfer capabilities,some additional shunt capacitors were added as follows; 11/24/2010 Gateway West Project -Bridger Study Area Page 45 of 150 WECC Phase 2 Project Rating Report l.Mona Annex 500;A total of three 200 MVar switchable shunt capacitor banks 2.Anticline 500 kV;A total of three 200 MVar switchable shunt capacitor banks 3.Populus 500 kV;Three 200 MVar switchable shunt capacitor banks 4.Mustang 230 kV;Two 30 MVar Switchable capacitor banks 5.Riverton 230 kV;One 41 MVar Switchable capacitor bank 6.Chapel Creek 230 kV;One 30 MVar Switchable capacitor banks 7.Bonanza 138 kV;One 60 MVar Switchable capacitor bank Earlier studies of the Bridger /Anticline West vs.Path 18 studies showed a nomogram relationship limited by voltage problems at the Path 18 buses.After changes to the base case modeling from Northwestern,Idaho Power,and PacifiCorp,revised studies show the modeling changes along with lowering the allowable Path 18 minimum voltage to .87 pu for Level B and Level C contingencies,will allow simultaneous operation at full capacity on each path.While not demonstrated in these studies,it is expected that these same modeling and voltage standard changes will also impact the Path C southboundvs.Path 18 nomogram such that both paths can be operated at their respective ratings. Base case overloads noted to be most significant in Appendices 3-5,3-7,and 3-10.These overloads appear in SE Wyoming and along the Colorado front range and are more prevalent in cases with high loadings on Tot la and Bonanza West.In these cases,Tot 3,between SE Wyomingand the "front range"area is some 400 -600 MW under its current operating limit of 1604 MW.The Cottonwood -Monument -Kettle Creek 115 kV and Kelker W -Rock Island 115 kV overloads appear to be in the Colorado Springs area and are probably more indicative of a local area problem than anything associated with Gateway West.The Sidney DC tie and the Sidney 230 /115 transformer overloads appear to be due to scheduling of the Sidney back-to- back DC terminals. In many of the path flow scenarios studied,overloads of the Grace -Soda 138 kV line,and to a lesser extent,the 3 Mile Knoll -Soda 138 kV line were encountered.These overloads were as a result of Bridger 345 kV system N-1 &N-2 outages and Path C N-2 outages.Tests of several RAS options indicated that bypassing both segments of the 3 Mile Knoll capacitor bank resulted in impacts to system voltages for several 345 kV outages.Bypassing ½of the 3 Mile Knoll 345 kV series capacitor bank was the most effective method of mitigating the 138 kV overloads for most conditions while not causing other voltage problems.This assumes that Path 18 recommended voltage mitigations are installed.With these assumptions,the 3 Mile Knoll - Soda 138 kV line was still slightly overloaded at 101%of its emergency rating and will need to be either uprated,equipped for dynamic ratings,or be rebuilt with higher temperature conductors. Several scenarios show that for high levels of wind generation and an outage of one of the Aeolus 500 /230 kV transformers,the remaining two transformers load to about 105%of their emergency ratings.As these transformers have not yet been specified,it is recommended that the top FOA ratings shown in the base case data be increased to 1764 MVA. The Bridger -3 Mile Knoll 345 kV line maximum flows were encountered on the Bridger / Anticline West vs.Path C southboundcases with Contingency CO2 and CO2a (Bridger -Populus l1/24/2010 Gateway West Project -Bridger Study Area Page 46 of 150 WECC Phase 2 Project Rating Report 345kV line DLO).With no gen drop RAS,the maximum line flow was found to be 2354 Amps. If one Bridger Unit is tripped via RAS,then the maximum line flow is 2064 Amps.These flow numbers can be found on Appendix 3-5.With this information,the cost of upgrading the Bridger -3 Mile Knoll 345 kV line can be compared to continued exposure of the Bridger Units to RAS tripping. Dynamic stability analysis of Aeolus West vs.Bonanza West and Aeolus West vs.Tot la both showed under frequency deviations down to 59.418 Hz.which is outside the TSS Approved exceptions to the NERC/WECC reliability performance standards.Appendix 21 includes the approved exceptions on pages C24 through C26.On page C26,the Bridger 22 kV generator buses are allowed a under frequency deviation down to 59.42 Hz.This exception to the standards may need to be amended to allow for the lower frequency excursion down to 59.40 Hz. 11/24/2010 Gateway West Project -Bridger Study Area Page 47 of 150 WECC Phase 2 Project Rating Report Appendix 1 -Post-Transient and Dynamic ContingencyLists Table 1-1 -List of N-1 Post Transient Contingencies 1 Anticline -Populus 500 kV Line 2 Anticline 500 /345 kV Transformer 3 Bridger -Populus 345 kV Line 4 Bridger -3Mileknoll 345 kV Line 5 Bridger 345 /230 kV Transformer 6 3Mileknoll -Goshen 345 kV Line 7 Kinport -Goshen 345 kV Line 8 Kinport -Borah 345 kV Line 9 Populus -Borah 500 kV Line 10 Borah 500 /345 kV Transformer 11 Borah 345 /230 kV Transformer 12 Populus -Cedar Hill 500 kV Line 13 Cedar Hill -Midpoint 500 kV Line (Out of Service) 14 Cedar Hill -Hemingway 500 kV Line 15 Midpoint -Hemingway 500 kV Line 15a Hemingway -Summer Lake 500kV line 16 Borah -Midpoint 500 kV Line 17 Midpoint 500 /345 kV Transformer 18 Midpoint 345 /230 kV Transformer 19 Borah -Adelaide #2 345 kV Line 20 Adelaide -Midpoint #2 345 kV Line 21 Borah -Adelaide -Midpoint #1 345 kV Line 22 Borah -Hunt 230 kV Line 23 Midpoint -Boise Bench #3 230 kV Line 24 Midpoint -Rattle Snake 230 kV Line 25 Midpoint -Dram 230 kV Line 26 Rattle Snake -Boise Bench 230 kV Line 27 Dram -Boise Bench 230 kV Line 28 Hemingway 500/230 kV Transformer 29 Kinport -Goshen 345 kV Line (Dupicate of #7) 30 Populus -Borah #1 345 kV Line 31 Populus -Borah #2 345 kV Line 32 Populus -Kinport 345 kV Line 33 Populus -Ben Lomond #3 345 kV Line 34 Populus -Terminal 345 kV Line 35 Aeolus -Anticline 500 kV Line 36 Aeolus -Mona 500 kV Line 37 Aeolus 500 /230 kV Transformer 38 Aeolus -Windstar 230 kV Line 39 Aeolus -Miners 230 kV Line (Changed to Aeolus -Freezeout) 40 Bonanza -Mona 345kV Line Table 1-2 -List of N-2 Post Transient Contingencies 1 Anticline -Populus 500 kV Lines (two circuits)-with &w/o generator tripping (NA) 2 Bridger -Populus #1  345 kV Lines -with &w/o generator tripping (NA) 3 Bridger -3MileKnoll +Bridger -Populus #1 345 kV lines -with &w/o generator tripping 4 Bridger -3MileKnoll +Bridger -Populus #2 345 kV lines -with &w/o generator tripping 5 Borah -Populus 345 kV DLO with /w/o generator tripping 6 Populus -Ben Lomond 345 kV DLO 7 Ben Lomond -Terminal 345 kV DLO 8 Populus -Kinport +Populus -Borah #2 345 kV Lines with/w/o generator tripping 9 Populus -Borah #2 345 kV +Treasureton -Brady 230 kV Lines 10 Populus -Borah #1 345 kV +Treasureton -Brady 230 kV Lines 11 Populus -Ben Lomond #2 +Populus Terminal 345 kV Lines. 12 Populus -Terminal 345 kV +Treasureton -Brady 230 kV Lines 13 Borah -Adelaide #2 &Borah -Adelaide -Midpoint #1 345 kV lines (RA) 14 Borah -Adelaide #2 &Midpoint -Adelaide #2 345 kV lines (RA) 15 Borah -Adelaide #2 &Borah -Hunt 230 kV lines 16 Borah -Kinport &Borah -Adelaide -Midpoint #1 345 kV lines (RA?) 18 Borah -Kinport &Midpoint -Adelaide #2 345 kV lines (RA?) 19 Borah -Kinport 345 kV &Borah -Hunt 230 kV lines (RA?) 20 Borah -Adelaide -Midpoint #1 &Midpoint -Adelaide #2 345 kV lines 21 Borah -Adelaide -Midpoint #1 345 kV &Borah -Hunt 230 kV lines (RA) 23 Borah -Adel #2 345 kV +Borah -Midpoint 500 kV Lines 24 Bridger -Populus #1 &Goshen -Kinport 345 kV Lines --with &w/o generator tripping. 25 Bridger -Populus #2 &Goshen -Kinport 345 kV lines with &w/o generator tripping. 26 Aeolus -Anticline 500 kV Lines (two circuits)-with &w/o generator tripping (NA) 27 Aeolus -Mona 500 kV Lines (two circuits)-with &w/o generator tripping (NA) 28 Palo Verde Generation -Trip Two Units Table 1-3 -List of N-1 DynamicsContingencies 1 Anticline -Populus 500 kV Line 2 Populus -Borah 500 kV Line 3 Populus -Cedar Hill 500 kV Line 4 Borah -Midpoint 500 kV Line 5 Cedar Hill -Midpoint 500 kV Line 6 Cedar Hill -Hemingway 500 kV Line 7 Midpoint -Hemingway 500 kV Line 8 Bridger -Populus 345 kV Line 9 Bridger -3MileKnoll 345 kV Line 10 Populus -Borah #1 345 kV Line 11 Populus -Borah #2 345 kV Line 12 Populus -Kinport 345 kV Line 13 Borah -Kinport 345 kV Line 14 Borah -Adelaide -Midpoint #1 345 kV Line 15 Aeolus -Anticline 500 kV Line 16 Aeolus -Mona 500 kV Line 17 Hemingway -Summer Lake 500 kV Line (NA) Table 1-4 -List of N-2 DynamicsContingencies 1 Anticline -Populus 500 kV Lines (two circuits)-with &w/o generator tripping 2 Bridger -Populus #1  345 kV Lines -with &w/o generator tripping 3 Bridger -3MileKnoll +Bridger -Populus #1 345 kV lines -with &w/o generator tripping 4 Bridger -3MileKnoll +Bridger -Populus #2 345 kV lines -with &w/o generator tripping 5 Borah -Populus 345 kV DLO with /w/o generator tripping) 6 Populus -Ben Lomond 345 kV DLO 7 Populus -Kinport +Populus -Borah #2 345 kV Lines with/w/o generator tripping 8 Populus -Borah #2 345 kV +Treasureton -Brady 230 kV Lines 9 Borah -Adelaide #2 &Borah -Hunt 230 kV lines 10 Midpoint -Kinport &Borah -Adelaide -Midpoint #1 345 kV lines 11 Midpoint -Kinport 345 kV &Borah -Hunt 230 kV lines 12 Borah -Adelaide -Midpoint #1 &Midpoint -Adelaide #2 345 kV lines 13 Midpoint -Adelaide #2 345 kV &Borah -Hunt 230 kV lines 14 Palo Verde Generation -Trip Two Units Appendix 2 -Nomograms Appendix2-1;Aeolus West vs.Aeolus South Aeolus West vs.Aeolus South 2700 2680 (1486,2672) 2660 2640 Limited by Contingency B35g;Aeolus -Anticline 500 kV 2620 (600 MW Wind Gen Drop +Added Caps) Limiting Element =Bridger 345/230 #2 O 2600e 2580 2560 (1700,2557) Limited by Contingency B35g;Aeolus -Anticline 500 kV2540(600 MW Wind Gen Drop +Added Caps) Limiting Element =Miners -Platte 230 (521 MVA) 2520 2500 1300 1400 1500 1600 1700 1800 1900 Aeolus South Flow,MW Appendix2-2;Aeolus West vs.Bonanza West Aeolus West vs.Bonanza West Flow 2700 2690 2680 (750,2672) 2670 2660 2650 (785,2656) Post-transient Limited Limited by2640ContingencyB35g;Aeolus -Anticline 500 kV (600 MW Wind Gen Drop +Added Caps) Limiting Element =Miners -Platte 230 kV 2630 2620 2610 2600 640 650 660 670 680 690 700 710 720 730 740 750 760 770 780 790 800 Bonanza West Flow,MW Appendix2-3;Aeolus West vs.Tot la Aeolus West vs.Tot 1a Flow 2700 2690 2680 (472,2672) 2670 2 2660 O li;2650 (650,2644) 2640 Limited by Contingency B35g;Aeolus -Anticline 500 kV (600 MW Wind Gen Drop +Added Caps) Limiting Element =Miners -Platte 230 kV 2630 2620 2610 2600 380 400 420 440 460 480 500 520 540 560 580 600 620 640 660 680TotiaFlow,MW Appendix2-4;Bridger/Anticline West vs.Aeolus South Anticline I Bridger West vs.Aeolus South 4200 4180 4160 Limited by Contingency B35g;Aeolus -Anticline 500 kV (600 MW Wind Gen Drop +Added Caps) Limiting Element =Bridger 345 /230 #2 4140 4120 (1482,4100)4100 Limited by ContingencyB35g;Aeolus - Anticline 500 kV (600 MW Wind Gen Drop +Added Caps)4080 Limiting Element =Miners -Platte 230 g 4060 g 4040 i 4020 (1700,4021) 4000 3980 3960 3940 3920 3000 1200 1300 1400 1500 1600 1700 1800 Aeolus South Flow,MW Appendix2-5;Bridger/Anticline West vs.Path C Southbound Anticline /Bridger West vs.Path C Southbound 4200 4180 4160 Limited by Contingency B35g;Aeolus -Anticline 500 kV (600 MW Wind Gen Drop +Added Caps) 4140 Limiting Element =Bridger 345/230 #2 2 4120 (1501,4100) o 4100 4080 4060 4040 4020 4000 3980 3960 3940 <3920 Limited by Contingency B35g;Aeolus -Anticline 500 kV 3900 d g md dridd er es)(2250,3900) 3880 3860 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 2300 2400 Path C Southbound Flow,MW Appendix2-6;Bridger/Anticline West vs.Bonanza West Anticline I Bridger West vs.Bonanza West Flow 4140 4130 4120 4110 (695,4100) 4100 4090 4080 4070 Limited by Contingency B35g;Aeolus -Anticline 500 kV (600 MW Wind Gen Drop +Added Caps)(785,4062) 4060 Limiting Element =Miners -Platte 230 kV 4050 4040 4030 Limited by Contingency BB35g;Aeolus -Anticline 500 kV (600 MW Wind Gen Drop +Added Caps) Limiting Element =Miners -Platte 230 kV4020 4010 4000 660 670 680 690 700 710 720 730 740 750 760 770 780 790 800 Bonanza West Flow,MW Appendix2-7;Bridger/Anticline West vs.Idaho -Montana (Path 18) Anticline /Bridger West vs.Path 18 Southbound Flow 4300 4200 4100 (337,4100) 4000 2 3900 3800 With Idaho &PacifiCorp Path 18 -Votlage Standard set to .87 pu 3700 Cntical Contmgency,None 3600 3500 iil 3400O 3300 3200 3100 ¯ü 3000 <2900 2800 2700 2600 200 220 240 260 280 300 320 340 360 380 400 Path 18 Flow,MW Appendix2-8;Bridger/Anticline West vs.Monument -Naughton Anticline /Bridger West vs.Monument -Naughton Flow 4200 (332,4100) 4100 4000 (475,3971) 3900 Limited by Contingency B35g;Aeolus -Anticline 500 kV3800(600 MW Wind Gen Drop +Added Caps) Limiting Element =Miners -Platte 230 kV (521 MVA) 3700 3600 3500 3400 3300 200 220 240 260 280 300 320 340 360 380 400 420 440 460 480 500 Monument -Naughton Flow,MW Appendix2-9;Bridger/Anticline West vs.Rock Springs /Firehole Anticline I Bridger West vs.Rock Springs I Firehole Flow 4140 - 4120 (489 4100)4100 4080 4060 4040 Limited by Contingency B35g Aeolus -Antichne 500 kV (600 MW Wind Gen Drop +Added Caps) Limiting Element =Miners -Platte 230 kV (521 MVA) 4020 4000 3980 (640,3972) 3960 3940 Limited by Contingency B35g;Aeolus -Anticline 500 kV (600 MW Wind Gen Drop +Added Caps) Limiting Element =Miners -Platte 230 kV (521 MVA)3920 3000 460 470 480 490 500 510 520 530 540 550 560 570 580 590 600 610 620 630 640 650 Rock Springs I Firehole West Flow,MW Appendix2-10;Path C Southbound vs.Idaho -Montana (Path 18) Path C South vs.Path 18 South 450 400 Limited by Contingency -None (Note -With Path 18 Shunts) 350 (2250,337) 300 (2250,285) 250 Limited by Contingency CO3 O (Note -No RAS.Dropping Bridger causes lower voltage)m 200 Limiting Element =Bus Voltage of 0.9pu at Peterson Flat n.150 100 -+-With Path 18 Shunts 50 Without Path 18 Shunts O 2000 2050 2100 2150 2200 2250 2300 2350 2400 Path C South Flow,MW Appendix2-11;Path C Southbound vs.Bonanza West Path C South vs.Bonanza West 850 Limited by Contingency B40A (RAS Trip of Bonanza Generation) Limiting Element =Emmapark-Upalco 138kV Line 800 750 (1849,785 (2250,749) N 700 Limited by Contingency B40A (RAS Trip of Bonanza Generation) Limiting Element =Emmapark-Upalco 138kV Line 650 600 1700 1750 1800 1850 1900 1950 2000 2050 2100 2150 2200 2250 2300 2350 Path C South Flow,MW Appendix2-12;Path C Southbound vs.the MSTI Project Path C South vs.MSTI South 1600 1500 (2250,1500) 1400 Limited by Contingency -None .=1300 O i¯ 1200 1100 1000 2000 2050 2100 2150 2200 2250 2300 Path C South Flow,MW Appendix2-13;Path C Southbound vs.Monument -Naughton Path C South vs.Monument-Naughton 550 525 500 (2250,475) 475 450 425 Limited by Contingency -None o 400 375 350 325 300 275 250 225 200 2000 2050 2100 2150 2200 2250 2300 Path C South Flow,MW Appendix2-14;Path C Southbound vs.Rock Springs /Firehole Path C South vs.West of Rock Springs/Firehole 900 850 800 750 700 (2250,640)650 600 550 Limited by Contingency -None 500 o 5 450o $400 350 300 250 200 2000 2050 2100 2150 2200 2250 2300 Path C South Flow,MW Appendix 3 --Post-transient Results Tables Appendix 3-1 Pg.1 ---Post-transient Results For Aeolus West vs.Aeolus South a e ass Prpaturt no aracrvamam uvan or.yah.d.causareth maanumm.n. wonsTLoAoiNo3 comuENT egwat n 49ee 24eo isoe 2s72aa isoo 2e72 1700 2400 203 1680 2ea ee7 ee2 12e lee 2051 ese 542 124 2996 2280 de4 2150 ilo 357 412 230 217 eet a n.a.os.am.iA-99-as.»so en oso.smev minom lossacTTNwoNKETTLEcK115#1 10393% 7 WWWWWWWWW a 801 Ante e Populaseconvane 1895 2080 o 3384 7eo 1322 34e es4 se2 24 195 1842 732 574 as 29ee2120 827 2150 ist 570 414 230 341 esi o o 70s e4e see 76e 775 025mWSmmm aaeM --MM ele 997 e17 ese 77e 587 282 27e 211 ee i aM Notta4e BRIDoER BRIDoEaA34e#1 19380%None a sola Ante e-Populosootvune 1826 22sa o 3046 7av toa2 att 697 ias sa 295 1947 vas aos 74 2996 20a2 294 2950 12e a2a aas 220 291 676 575 o Tao 027 av cas one 4cs 925 1222 409 eas as ava 984 1099 94 12a2 osa 58 va ses 27 2es 295 o salooER smooEaAa45ei 102 None e2 seaa avedon Atan c230kvune+Dao cap 2504 7ea 23e 247 e22 24e eda e2e 4e 932 ese eso 21 2996 2286 dee 2 Se ce ase 4ce 228 2 eso o e17 te7e 1993 254e lee4 1997 eaa e4e 143e teet lee4 1722 e7 4e ese ese ao 244 222 es e o BRIDoER Roaxspos 230 #1 e 72%None--a mmmmmmmm---am 9orne 500 soo soo soo 900 250 250 ee merc c e eaAmpse2oAmps vre ox e an es no sie :::so se o venuto Pr case -Ive i cA Ë oivenoED c,se nivemoto Prcase .ive o vcA e oivenomo P acapaat Drom 4 Le 2e esi 4.29 a ;Lo 2 ei o 7 so «$$255 sã;i Ès as cosapopeus aeotomanda45kvoto+aypass1/2ofaMKsenese ea7 255 ee2 ao ess 7ea 330 e37 7eo 12e so 2029 725 See 4e 2eee2350 534 250 aa 394 see 221 207 685 o oel 1449 120s 1994 1090 1728 2259 1479 1946 ess 793 1976 1334 isee 1293 1352 isla oss lose 73e 397 300 232 67 o o PAusADE-RocxsPos2aom asie one es 170s 1871 less 1728 2oos 2ee?17ee 1814 ese are 14ea les2 1699 les?1721 1789 728 1940 vee sie aos 244 es o o IgrERwr-IvrERuixs4esi Teis ne 1980 17ea las?1729 9esa 1962 2530 1790 laos 799 to isso 1745 9977 9aae 1849 9882 va2 1955 772 395 aos 245 e7 o o aRiooER-aRiooEaAa45*1 9999 None see isce 1371 1725 1729 2004 2657 170s late ese ses 1471 1796 mesa 172e 1702 1524 72e 11aa 764 air ao?244 er o o IgreRur-iwreRuTxa4eel 7692 ne 1962 1595 1387 1750 1752 2028 257e 1724 laae es 7e 1494 1742 179e 1749 1794 1534 72e lisa ves air aar 244 es e o INTERMT NTERMixs49ei 7692 None 24 meso 1301 1522 lees 1854 28e?less 12se aos ese isce 14ee 1499 1461 14ea seis Tes clos 752 sie son 289 es o o souRDPs ouNcm2som 7950 ne 1954 9497 la49 9eva tees 1999 2544 9eas 12ae os se sati 9649 9649 1796 tasa 1594 729 99ao Tea sia aos 245 av o o inreRMT isresurxa45*1 7612 None see teos laea itse tra?2040 26e?1794 laos ele eso 1943 less less tras 1790 is2e 72e 11aa 764 air ao?245 er o o IgreRur igreRurxa4eel 7692 ne 1956 isoa 1982 1790 trao 2007 2549 1702 isoa il 46 issa leel 1707 iras 1706 1523 72e 1932 vas air see 245 67 o o moPourisa/2aout veen None ...orgies 4100 asco isoo 26724 ease aseo esse ese œ e oeus 1)voiageMomms>s%msteveisa>10%wtevac 2)exauemusenecapsmestunesme>andTramroamste<uamemes Appendix 3-1 Pg.2 ---Post-transient Results For Aeolus West vs.Aeolus South eAsEc sE PTPANFLo e no p EAcivEMAnos uvAn orwehade edisaret muu mar¢ns v A wonsteoAomo *commanT s.2,2co acomw c2e ove vap a2 59 o o 52 2071 e2 201881420837442285228 7ee o o o wenwiN viewvAPlowl 19129%-Noe 7 samtdotooww 4 eso .s a 120e 712 201e oso ea7 ise 459 asa 41 ae7 176ei ese 540 123 2eee lese 147 2205 73 450 275 lee 192 7ea o eco oNANx 500 e o miNERs PLATTE 2ao si 99.56%-None os av as..s 2ea2 1629 2428 170s 1980 sae 128 12e 2ae 2118 770 ea2 2aa 18129962298 4742129 Sa 47e 288 174 224 781 y..-.,.-ac-..e.w..y. I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I 1)voegevidatenswamfortevesa»1emforteveic2)ewmangserescapamastuneside)andTransionnestertaaryeussa Appendix 3-2 Pg.1 ---Post-transient Results For Aeolus West vs.Bonanza West ansecas r 97 par Peons no nexc wenanal avan tr...an.c.a....t wonsTLoAmNo comuENT 2 isere>4 520 320 lao 224978 82:ese 153 29ee 2540 720 2005 Ta ses ass 209 224 ese ne r .insice...ryk ung ca.orgtene saos asao 1979 794.-.....590 999 12e 15e2992 754 e19 127 29ee 2090 275 2005 107 504 aan 219 239 vas ne r aluste..w.,www.n.y 1)vo gev ns>s%mstevesa>1ememteveic2)ex angsenescapsmestunesme)andTransfonnertewayemes. Appendix 3-2 Pg.2 ---Post-transient Results For Aeolus West vs.Bonanza West ansecas PTwa stoms no neactusmanomavan r...ysa.c.a....um zu wonsTLoAmNo comuENT ...e nas asna isoi Tas assase 15e 2eee 1672 2383 -9492 9384 as2 ese ae7 927 221 2091 785 eas 946 2eee 2479 ese 29ca e4 set 370 20e 217 701 e o Ne so NN em 11 1 e 7 |c FevHORsE 195 mi ozes eoms An ne600kvane 4e Tse ses saa c4 ao ao aar am va2 se 2ma 2207 es 04 476 as via o 600 637 07e 4eo 777 74e cae 4e 7e 2264 eo 44 ea4 439 22e wvoPo 34 ne eas rcAss a vtaoen assa a...c...o.......nasen...su. ese 604 23e e e4 eo e 20 2 7ee eae e2 2eee 2425 eoe 2203 es so 7 es eo s-Antoinescokvune rau m esaacAeos-Andenesconvune ERs 2 LATTE 230.o#1 eas one 1)voegevidens>s%mstevesa>1e «Leveic2)extangsenescapsusestuneside)anovranstonneste<uayeusea Appendix 3-3 ---Post-transient Results For Aeolus West vs.Tot 1a c a e a s or EAcTwa oiN uvAR ora tad cessamthew ¢ns wonsttoncima=''""coment .stgianawia2ey2esosa 92 2e72 e7e 23ee 4e2 400 34e esa see as e 2099 779 eso 41 2eee 2473 es4 203 es so 20e 27 702 m...c...o me m.se se.m.9el.,sumgasu. 4 802 An oc v es7 494 755 084 e e27 c4a 7e 440 ese les e es es se se e a4 e aRoeER a oomeaa4eal a2.7em -None cura..wo.ta.wiceam WWMmWWWWiiWW-mes.orgie e eos 7ee 4e7 ese e 2 97 7ee eso 44 2996 2473 eë4 2103 ee so e7 20e 2 e e7e o soNEviist230#1 107 713 1970 992 710 304 elo 244 34 2ee 1986 aos 742 as 29ee 2207 470 2108 loa 4ee aas 195 laa 74e o eco aaec Aedas Andane600kvane 4 796 1971 m2 755 aos 612 201 50 2as 2029 aos 7as se 2996 22ca des 29ca los 4ao a42 20e saa 7a2 e 600 o s TTE 230.0 None easedonERate,ealMvA 2 9674 2ays 94a2 saas 942 649 975 sas 220 20ss vio eso 149 22eo 259e too 29ca as ses asi 29a 21e 695 a...ca..o ...sa-en.seu. 624 2e72 le7e 237e sie less 2ea ee7 662 12e 21e 2161 601 250 12e 2227 2e2e 1992 1604 10e 504 de4 24e 21e e7e 758 1959 792 ese 23e saa 17 de 279 lees saa sea 72 220e 2eel 928 1804 12e 480 443 239 182 742 a 600 vatsevaamo e fortevesa o fasteveic21Excodagsedescapausestuneskie>andTranerormerte rykses. Appendix 3-4 Pg.1 ---Post-transient Results For Bridger /Anticline West vs.Aeolus South coNTINoENcyt AsE AsE i PT PATMFLows o norop REAcTwEMARoiN,mvAR prayshadedeelisarethamnunummarginnt BASEcAsENAME woRsTLoAoiNo a 9 ""commemT 31*WalwWWWWWIWMH41-Ilili|||||||||||||lill i ||||||||||||||||Il|||||I || |owstelme_aico_24eo_isoo_2.sav 1499|25ee l stco 24co 23 749 |es |4eo l ?47 |sao l 177|2o4e |7os i ssa l i27 |2sse|29aa l ais 2cos i sce l so4 |ase |21e 2 e eee sa..caseaser ena.w.ar se -se .g osua l I I ||||||||||||||||||||||||||||||||||||||||||||||| ||lil I ||||||lilli Il |||||||l i lllllllllllll i Il |||||| |||||||||||||||||||||||||||||||||||||||||||||||||| a |gmygg-gga9|sos Anteine-Populassockvune 1894 2cos a saas e77 392 277 ses 428 as ses 1839 749 584 91 29961975 sac 2005 saa sie ses aos 34e ese o e ese 125alWWWMMi 92e 1295|1793 1062(¾¾se song MMt issvlees ear est sia ses 227|57 i sM outs45 salooms.ssiocesAs45ei 19394 NonetolselaAnudine-Populassoorvune 1824 asas e 3045 ese sea 242 545 207 es 20e 1945 755 e17 77 2996 1884 142 2005 122 473 37e 2ca asa 682 575 e aas 1457|.res 123e|1249 1572|20se 1360|719 602 sell 995 143 To 379|15es 157ele57 935 ese soo 290 229|62 o eslooms.ssiocesAs45ei toise None99|solgAnteine-Populassockvune+Jaal+Kopcap 1820 2187 e 3054 een osa 241 544 aos es 20e 1947 754 ese is 2996 saae 144 2005 121 473 37e 2ca 287 eas 575 e 999 isos|.812 1977|1987 1798|1792 147el 791 67e e24|1999 2as 899 4er|lese ie2sless 967 vos 309 291 230|62 o eslooms.ssiocesAs45ei 101.58 None12|Bo2 Anudinescois45xvT<ansformer isee 2588 748 2351 123 753 ses 485 yee 131 17e 204e 704 554 127 2996 asas 317 2005 see ses 397 219 212 ees a e toeo 1899|.sora 1859|1875 2923|2599 1744|11ss 885 ae4|190s 848 oss 854|1965 2007|724 079 782 323 324 253|ea o o ......None1sisosBridger-Populass45xvune 1565 2497 9072021 995 ess 235 Saa ese sie 179 2011 722 See 12e 2996 2111 295 2005 sie sea 395 aos aos esa e a 1974 1747|.9239 1532|1585¾¾|2424 1592|1927 759 77e|1sse 578 569 esal1797 laae|712 too 784 saa aso 249|ee o o essoass.ssiocesAs45ei esci None94|so4 erlager-sMaeancas45xvune sec2 244e saa 1879 sea 684 274 578 692 se aos 1989 vaa see sie 2996 2095 283 2005 199 se2 393 217 237 vos a e 1092 ina4|.soma itselisee 1462|1985 1280|-994 2599tgi(.a4e 120 cas 292|1571 iviolves osa Teo saa 327 242|es o o sPsiNGER.acAosToNisse a2ea None95|sos Bridgers45/23ekvTransformer seco 2594 6982395 12e 747 191 492 745 129 17e 2045 yee esa 127 2996 asas ase 2005 see ses 397 aos ase ses a e 1261 isool.14e2 1825|184e 21os|2eia 177e|149e 882 92s|104s see ese a4al19es 2009|723 2se 812 322 32e 252|ea o o NoneselsceaMimanca-costens45xvune 1524 2554 7912243 ses 719 204 ses 722 117 ses 2029 712 esa 122 2996 2111 299 2005 sie sa7 397 219 212 694 e a 1235 tasol1429 1697|1702 isse|24ea searlisea ele acol132e esa ess 7sol1874 194cl720 1293 aos saa 331 25sler o 2 asAce.sooA isant 199.2 None 97|soeaaMimanca-costens45xvune+synassMucaps 1543 2525 829 2027 c4e 720 222 524 723 112 197 2018 715 esa 129 2996 2111 298 2005 sie sa7 397 219 213 687 e a 1299 1787|1352 isselseor tasal24cs ie23|12as saa 505|1245 585 552 672|182a 1899|717 1992 797 sa2 aso 252|av o o asAce.sooA isant 7500 None svaassResolvesoutalserKanpart-costens45xvune 1498 2598 ese 24ca 125 753 saa 489 yee saa ses 2047 yes sea 12e 2996 asas ase 2005 see ses see aos 217 ees a e 12ea 1934|1459 1898|1819 21eol2e22 177e|1275 332 sis|15as ato 794 a49|1973 2021|724 1243 ate 327 327 254|ea o o eslooms.ssiocesAs45ei aers None99|soa Kanport-sarans4skvune seco 2594 7ee 2397 123 747 ses 49e 745 saa 177 204e yes sea 127 2996 asas ase 2005 see ses 397 aos ase ses a e 12es fase|1474 1807|1837 2ceal2eos 97es|14ci as2 ase|1497 aos asi sas|1955 2004|724 1238 814 327 327 253|ea o o None2cisosPopaus-saransoorvune 1520 25e4 ese 2445 ses 719 194 495 725 123 17e 2035 707 554 117 2996 asse aca 2005 112 sa7 398 219 229 ees a e 1265 1869|.1441 tessile44 2002|2549 1985|1975 847 asolines rea 749 799|192e 1971|722 1242 ate 327 327 253|ea o o eslooms.ssoasAs45ei se72 None21|sic Baransools45xvTransermer isca 2592 eas 2412 112 757 see 491 755 131 sac 2047 yee ses 127 2996 asse 321 2005 ses se2 395 aos asa sea e a 1265 1897|.1485 1824|lesa 2css|259e 177e|1499 ase ses|149a ser vos s29|1954 20ce|723 1240 als 327 32e 253|es e o None22|s11 serens45/23DxvT<ansermer seco 2595 092 2404 sia 75e 191 492 752 saa saa 2047 yes 554 12e 2996 2134 317 2005 ses 504 see aos asa ses a e 1267 1902|.9479 lacolia2e 207e|2eos 1762|14o4 as2 892|147a 804 aos s29|19eo 2012|723 1242 ate 327 32e 253|ea o o None23|s12 Popas-cedarHisiscorvune 1517 2549 eas 24cs 167 ese 191 492 e27 ses 162 2015 voi 544 129 2996 20e7 ase 2005 117 52e 49e 223 225 ees a e 12as tasal.145o 1592|1701 2caal2414 W#disas 857 so2|14ee 704 702 79e|1920 1957|727 12eo a24 sai 332 255|es o o LocusT.MosA isant a2es None25|s14 cedarHill-Hemmowaysocavune 1520 2544 esa249e 164 esa 192 493 e24 107 162 2014 vos 544 129 2996 2005 258 2005 sia 527 49e 223 22e ses a e 1279 1849|.1413 1543|1654 2caal237o toe2|1ssi ass asol1423 es2 es2 757|1898 1937|727 124a als sai 331 254|ee o o LocusT.MosA isant 8275 None2els15Miapomt-Hemingwaysoorvues sees 2585 eso asse 125 732 see 49e 728 127 175 2049 yes 552 12e 2996 2124 ses 2005 107 sa7 398 aos 217 e7e o a 124e laeol.14cs tes2|157o 1459|23eo 1731|1257 829 se4|1saa e42 ses 762|1898 19ee|723 1222 807 327 327 253|ea o o ...None27|sie seren-Madpointecoxvune sees 2572 e77 asse 14e eso see 499 esa oss 97e 2039 yea 549 sie 29ee ase2 287 2005 sie sie 4ca 221 224 ees a e 12e2 laes|14ss 1679|154s saell2457 tissliser a4e asolinsa vil eso 7ealista 19es|725 1238 814 329 329 25sl er o o MioPo:NTisa/2sont 74se None2als17Midpoetsools45xvT<ansformer sec2 25ee ese 24cs 115 759 see 49e 777 saa ses 2050 707 see sea 2996 214e 324 2005 sia see 394 217 223 ees a e 12es 99col.14as 1894¾1750|2587 1762|149e 874 998|154s saa ao4 a4s|1961 2011|722 1238 814 327 32e 253|69 o o LocusT.MosA isant 8874 None29|sia Miapoets45/23ekvTransformer seco 2594 ese asse 124 74e ses 49e 741 129 177 2045 yes sea 129 2996 212e aos 2005 see ses 397 219 217 ees a e 1265 1845|14ae 1895|1832 2ca4|2cas 97es|1499 879 ase|154o a4e 822 a4e|1962 20cal724 1240 894 328 328 253|ea o o MioPo:NT230/345e2 8397 Nonesolaisseren-Adesames2345xvune sec2 2589 ese assa 134 729 ses 49e 731 127 175 2042 yes 552 12e 2996 2124 see 2005 199 ses ses aos asa ses a e 12e2 laa4|.14ee 1779|1799 2ca2|25ei 1751|1397 760 sos|1594 797 ret 822|1937 1992|724 1237 als 32a 327 253|ea o o Nonesile2eAdelade-Madpointe23454vune seco 2593 7ee 2397 12e 741 ses 489 741 129 17e 2045 yes sea 12e 2996 2129 asa 2005 ses see 397 aos ase ses a e 12ee 1899|14ae 1894|1834 210s|2e14 177e|1499 are 921|15ao sai 794 a4s|9ass 2007|724 1241 als 32a 327 253|ea o o None32|s21 seren-Adesame-Mepointe1345xvune sec2 2589 7ee 2392 135 728 189 49e 731 127 174 2042 yes 552 12e 2996 2124 see 2005 199 ses ses aos 217 ees a e 12e2 1885|1465 1773|1794 20e4|2569 1752|1349 set aarlssoi 7as vsa stalisas 1999|724 1238 als 32a 327 253|ea o o Noneasis22seren-Hunt2sorvune seco 2592 7ee asse 129 738 maa 489 737 129 175 2044 yes 552 124 2996 212e aio 2005 ses sa7 398 219 asa ses a e 12e4.1894|.94ao foss|1825 2075|257a 17es|141s 872 917|15ae 829 ao4 sar|1958 2002|724 1239 894 328 327 253|ea o o MioPo:NTisa/2sont 7988 None34|s2s Miapoet-seasesenenes2sorvune seco 2592 ese assa 127 741 ses 49e vae 12e 17e 2044 yes sea sac 2996 2127 aio 2005 see see 398 219 asa ses a e 12e4.1895|.9479 1798|1810 204e|2570 1759|1492 789 stalissa s2e 797 sas|1958 2003|724 1239 894 328 327 253|ea o o LocusT.MosA isant 8844 Noneas|s24 Miapoet-matuesnake2sorvune seco 2594 ese asse 125 74e ses 49e 742 saa 177 2045 yes sea 12e 2996 2129 aos 2005 see ses 397 aos ase ses a e 12e4.189el.147a 1782|17eo 202e|2eos 1747|1499 ars 917|1599 804 ree saalissa 2007|724 1239 894 328 327 253|ea o o Nonesele25Midpoet-D<am2sorvune seco 2593 eseasse 125 744 ses 49e 741 129 1772045 yes sea 12e2996212e 314 2005 see see 397 aos 217 ees a e 12e4 1897|1482 189clia27 2cz2|25aa 1767|149e 877 884|1542 saa als a4s|1959 20ce|724 1239 894 328 328 253|ea o o None 37|s2e Rattlesnake-seasemenen2sorvune seco 2593 ese assa 12e 742 189 49e 738 12e 17e 2044 yes sea 129 2996 212e aio 2005 see see 397 219 229 ees a e 1265 1897|1455 1898|1839 2079|25ea 1769|1498 879 922|1557 849 828 a45|19eo 2005|724 1240 894 328 327 253|ea o o LocusT.MosA isant 9 Nonesale27oram-seasemenen2sorvune seco 2595 ese 2400 123 749 ses 49e 74e saa 17e 204e yes sea 127 2996 2132 317 2005 see ses 397 aos ase ses a e 1265 19col14av 1824|1845 2097|2eie 177e|1429 aat 924|155o see as4 a49|19es 2009|724 1239 894 328 327 253|ea o o Nonesele2aHemingwaysoc/2sorvTransformer seco 2595 098 2400 122 749 ses 49e 748 saa 17e 204e yes 554 12e 2996 assa ase 2005 107 504 see aos asa ses a e 12e4 1899|14a2 1812|1832 2caal 2eos 17es|149e var 921|1549 saa a2s a45|1961 20cal 724 1239 814 327 327 253|ea o o LocusT .MosA isa nt as2e None49|sso Popues-sarane1345xvune 1497 25ee 7ee2394 134 737 ses 489 738 12e 17e 2045 704 552 124 2996 2127 aio 2005 ses sa7 398 219 asa ses a e 1270 1907|1499 184cliast 2ces|2e19 129e|14ss 807 92e|1574 857 829 as4|19ea 2015|725 1244 89e 328 327 254|ea o None42|Bai Popues-Barone2s4ervune 1498 2594 704 2394 133 737 ses 49e 738 12e 17e 2044 704 552 124 2996 2125 aos 2005 ses sa7 398 aos 217 ees a e 12ee 1897|1483 1894|1829 2079|20ee 17es|149e var sis|-ses sai 798 a4cliese 2005|725 1241 als 32a 327 253|es a None i4siss2Popues-Koports45xvune 1495 2599 ese 24cs sae 744 ses 489 744 12e 184 204e yea 552 12e 2996 2127 aio 2005 ses sa7 398 aos aos ses a e 1273 91e|1492 1819|1803 20es|2eot 1769|1414 759 ase|1239 855 745 854|1974 202e|725 124a als 32a 327 253|ea o stooms.s aAs45ei a None i44|Bas Popass-BenLomandwas45xvune saae 2557 ees ases cas 781 205 see 77e 134 17e 2044 715 ses 134 2996 asse 337 2005 97 493 asa ese aos e74 e a 124a a12|1447 1720|1741 201s|2o14 1794|1975 854 scol-941 71e 717 e19|1791 1992|715 224 aos 32a 325 251|es a None i45|ss4 Popass-Teromais4ervune 1533 2559 e75 2375 c4e 77e se 497 707 132 17e 2043 795 see saa 29ee asse 335 2005 99 494 ses ase ese e72 e a 1247 ao1|14sz 170s|1725 2001|2545 17os|13e4 724 892|1454 697 699 742|1782 lase|71e 223 aos 32a 32e 252|ea o None 47|ssasAeosm-Anteinesco+RAscaps+eooMwAeosasorop 2087 as 797 see 545 29 45 445 89 4e 224 820 743 ese 72 2996 87 ao 2005 23 4es see a7 77 747 e ace M &|1293 2075|21eo 235s|2aos 99ce|1472 scos lovellast 21so 2119 sae|1492m¾&lete &eo MMI sa 54 as vs4 4|ssioces 345/230*2 104 None I I I I I I I I I I I I I I I I IMINERS-PL^we 2so el 9944 Noe i49|ssag Aeolus-Anteinesco+RAscaps+eooMworop+Monanscap 213 as 799 987 525 es 44 444 227 se 24e ae7 vae esa 73 2996 87 ao 2005 27 482 373 7e 739 e ace era as|154 2315|231e 245e|29co tasol ies?1994 1977|-2o4e 2415|237 sell issa tasal e47 c45|-7 4|-24e 233|eo o 1 |astoass 345/230 *2 100.54 None I I I I I I I I I I I I I I I I IPL^TTE-L^TH^M 2sont 9537 None I I I I I I I I I I I I I I I IMINERS-PL^we 23ews 952e None 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1919 14e2 193 1823 2088 2eie 17es|1972 877 879 1524 807 1802 841 1971 2025|723 12co¾¾328 327 251|69 o o MINess.PLAre 2sont 7273 None57|s4e sananza-Manas4eavune se4e 2028 1728 2473 325 e49 24e 543 e44 ses 187 2238 134 133 sac 2996 20e7 25e 2005 82 441 337 ses 223 707 e e -922 1777 1939 849 1540 1895 24ss 95es|1993 828 823 1340 513 1528 682 1873 19eolm ser 673 sie 302 23el MR o 4 soNANZA.vesNAL isant 123.29 Nonesals4casonanza-Manas45evune+RAsTripsenanzaPlant 1623 2589 sese 2415 ses 519 213 515 522 142 see 2167 so 447 12e 2996 2053 283 2005 73 422 saa see ese ee4 e a 1044 1899 isti aat 1728 2047 2558 197e|12as ae4 ass 498 799 1723 787 1971 2093 asa 1049 735 siv saa 244 es o o GLENcANY2sois45ei 82.59 None eenTre<esolvesavedood59|s49 Hemingway-sammerLakescoxvroe seso 25es 1674 2aes sie e47 ses 490 e2e sie 164 2029 ese 542 mei 2998 2057 254 2005 199 sao 492 224 207 ero o o 1279 1869 147e 799 1709 1794 laae 157s|1499 ser 994 489 752 1792 ato 1937 19ea 728 1254 821 sai 331 255 ee o o LocusT.MosA isant 88.99 NoneeoissiDaveJon.Duricany2sorvune 1439 2597 seso 2377 12e esa 167 4ee esa se 164 1997 Taa ses 124 2998 219e aca 2005 104 494 aa?295 293 676 e o 1288 1954 549 aos fase 214e 2e45 1807|1459 aos 937 eco see 1880 870 2001 2058 eso 1245 827 295 280 241 e4 o o oxveuoHN.oAveuTPsisse asso Noneetiss2spence-Mustana2sorvune seis 2479 1694 2395 ose too 171 479 tot sa ses 1946 79e ses 124 2998 2924 ao?2005 see Soo 392 217 207 676 e o 1052 lasa 449 ses 1898 2153 2ess 97as|14es ses saa ess 929 1993 asa ises 1996 707 028 725 232 278 243 ee o o essoass.ssiocesAs45ei 8975 Nonee2|Bas Roerton-Atlansc2sorvune seaa 2435 stoe 2aee ses ese sta 473 ese 49 see seas its eso 12e 2998 2936 ase 2005 104 49e ass 217 293 eee o o loaa 1829 344 728 17ea 2077 2eo4 17solists aos 999 049 774 1770 see 1948 1982 vos 067 Tse 322 274 227 ee o o HAsoiN 2sottiset se27 None Negasvevdevs>1e¾ esissaaRuerton-Atlansc2sorvune+oisc.caps seaa 24aa stoe 2aes ses ese 172 473 ess 47 see isso its eso 12e 2998 2939 ase 2005 104 49e ass 217 293 ees o o ices 1823 327 792 175e 2070 2eoo 1721|1soo soo see 928 747 toes ses 1947 1980 vos c4e 727 312 24a 228 es o o HAsoiN 2sottiset se27 None i I ||||Ma omaarons I I I \||||||||||||||N.9 criteria soo soo soo soo |ico 250 250 I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I 67 1 tWWWWWa iimu-I l l l l l l l l l l l l l l l l |||||||l i l l I |||||||1 I I I I Ivolco2Bridger-Populus*1+w2345xvunes seas|2317 2257 saea 774 see ase e22 eaa 72 182 1942 yea ses ses 2996 aa72|aes 2005 sie ses ses ase 202 yea e e -999 1995 kg 995 1074 1997|1874 114e esa 527 503|-992 087|1060 179 1439 1552|ea4 2e esa 34s|-ass |19 sM outs45 i essoass.ssiocesA345*1 125.00 Noe 2soo.c4Amos 79|co2assidger-Populus*1+w2345xvuneswRAs secal25c4 2090 1225 774 348 271 574 384 115 202 2052 ise 594 94 2996 1979|223 2005 104 458 ses 20e 177 via 575 e 1024 1852 004 347 1429 174|2257 1457 885 534 674|129a 449|1422 509 1793 1824|eae 021 729 sa2|-s23 242|67 o i essoass.ssiocesAs45ei 110.10 Noe 2025.92Amps72|co2tsridger-Populus*1+w2345xvuneswRAs is29|2es2 1993 sees yes ese 22e 528 144 ses 221 2157 701 eaa is 2996 1881|183 2005 92 414 saa 194 ses 694 isse a sosa 1899 097 ess 1623 1921|2411 lato 977 791 775|1998 e4alteor 704 187e 199eless 028 731 317|-soe 243|79 o o essoass.ssiocesAs45ei 95.88 Noe73|ces Bridger-sMaleKnosi+eridger-Populassi345xtranes 1714|2262 2267 124e saa 594 354 ee2 e14 se 229 1999 yes se4 ses 2996 2057|249 2005 197 see ses ase 22e 754 e o M¾i 1202 700 MI 1519 saa 327 NW 764 MM 25 1213 |672 854 ee2 344|-327 224|62 o slaasAss 69 as i essoass.socKsPas 2so si 103.70 None74|cosaaridger-3MileKnoli+Bridger-Populus*1345kstunes«163412455 asse sees eas 352 aca esa see ses ase 2033 702 597 92 2996saeela14 2005 ses 457 see 205 193 724 575 e -972 isas 945 isi 1944 1437|19aa 1260 aas 342 ser some 274 1569 17erle72 973 vil sas|-32o 235|es o PTasNFsaae 52 o essoass.socKsPas2sous as.95 None75|costariager-suaseKnosi÷erlager-Poposassis4extranese sesalaese 1952 952 ese os2 202 ses 149 143 25e 214e 707 ess 77 2996 sa7e|175 2005 93 412 328 saa ses 704 isse o .1012 1728 oss ses ises tese|2177 1453 998 sai 460 foss 322 1283 507 1767 1996|002 720 319|¾239|79 o PTasNFsaas se o HAsoiN 230/195*9 99.38 Nonevelooscariager-aMK+eridge-Popeis45+RAs,2Jea+Patniacaps 155elasse osaa 949 721 152 259 582 203 143 ase 2131 702 e25 82 2996 sesalise 2005 94 422 saa see see 697 1950 o .1042 1765 124 522 ises 1844|2sa4 1589 054 e49 532 1248 794 ince 627 issa 194alees ost 734 s22|-sto 249|7e o .....o GLENcANY2sois45ei 89.50 None 77|co4 eridger-sMaleKnoli+eridger-Populose2345xtranes 1714|22e2 22e7 124e saa 594 354 ee2 e14 se 229 1999 yes se4 ses 2996 2057|249 2005 197 see ses ase 22e 754 e a gt 1223 700 Mlå¾saa 327¾¾764 M le72 MMg 344|-327 lgg|62 o slaasAsses as i salooms.socKsPas2sont 103.70 Nonevalco4assidger-3MileKnoli+Bridger-Populus*2345kstunes«163412455 asse sees eas 352 aca esa see ses ase 2033 702 597 92 2996saeela14 2005 ses 457 see 205 193 724 575 e -972 isas 945 isi 1944 1437 1938 1260 aas 342 ser some 274 1569 17erle72 973 vil sas|-sis 235|es o PTasNFsaae 52 o essoass.socKsPas2sous as.95 None79|co4tsridger-sMaleKnoli+eridger-Populose2s4extranese sesalaese 1952 952 ese os2 202 ses 149 143 25e 214e 707 ess 77 2996 sa7e|175 2005 93 412 328 saa ses 704 isse o .9011 1728 oss ses ises tese 2177 1453 977 sai 427 teso sie 1283 507 1767 1996|002 720 32cim 239|79 o PTasNFsaas se o HAsoiN 230/195*9 99.38 Nonesolco4cariager-aMK+eridge-Pope2345+RAs,2Jea+Patniacaps 155elasse osaa 949 721 152 259 582 203 143 ase 2131 702 e25 82 2996 sesalise 2005 94 422 saa see see 697 1950 a 1042 1765 1924 522 ises 1844 2354 1589 054 see 532 1249 549 ince 627 17e2 1948 sea ost 734 s22|sic 249|ro o ..o GLENcANY2sois45ei also None «PiacapsaLoado<op89|cos seren-Poposass4ervoco 1494|2593 1718 2379 sea 79e ses 49e via 123 17e 2039 702 549 117 2996 2112|295 2005 sie 513 402 220 asa e7e o a 1270 issa 1478 095 1793 2029 2554 1758 4ca ses 999 1534 783 1792 als 1942 1997 72e 1245 ate 329|32a 254|ea o ...o eslooms.ssiocesAs45ei sees Nonea2|cosasaren-Populas345kvoLowcentripping 144512733 16122109 se2 438 ses 4es 4e7 ses 20e 2129 714 see ses 2996 2cce|249 2005 yea 4ea 371 209 189 eso 575 e 123e 2004 1490 1919 1994 2131 2e29 1832 4es 92e 964 sesa sia fase ses 1989 214e 710 1290 aosŒ¾|312 25s|79 o ...o FRANNIE.vetowruP2sont 7897 None eenireNetseatasicoePopass-BenLomands45xvoLo sece|24ec sece asc4 842 aso 237 54e 823 141 173 2039 73e 578 149 2996 2202|384 2005 78 4e7 37e 20s 213 eas a e 1214 1841 14ce 1597 1812 1964 245e 1632 329 823 878 1957 ses 1572 288 1512 1722 695 1995 798 328 319 244|69 o ...o asAce.sooA isant 7530 Nonea4|cosaPopues-BenLomands45xvoLo+synass1/2efans seac|244e sees asse 795 845 25e ses 820 saa sac 2025 74e 578 14e 2996 ass7|a7e 2005 ao 4ea 37e 2cs aa7 eas a e 1983 1592 isie 1467 1484 tras 2347 1537 234 599 737 1231 4ce 1432 2se 1477 1679 699 1968 789 saa 320 243|es o 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234|1467 2154|217e 2ssal 2aos 1998|1540 1028 19cel 1892 2215|219e lessi 1514 1469|e49 749 |541 243|298 222|Se o ...1 smioces 345/230 *2 8759 None I I I I ||||||||||||||||||||||||||||||||||||||||||||||IPLATTE-LATH^M 2so et 8752 I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I IMINERe-PL^we 2so es asas1341WWWFWMammIIlli||||||IIIIIII||||||I IIIIIIIIIIIIIIIIIIIIIII I I owstelas_aico_24eo_isoo_4.sav iscol asse 17ee 2400 147 731 212 514 vac 125 182 1978 ee7 sea 12e 2996 2254|438 seas ses 504 413 225 217 e72 e a iselssagAeosm-Anscenesco+RAscaps+eooMwo<op+Monancap 2145|1201 var saae sae 12e 167 4ea saa 51 22e 1791 vos ea7 ye 2317 1992|251 seas saa 479 ses 217 177 739 o ao o ...o smioces 345/230*2 9882 None I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I PLATTE-LATH^m 2so et 9854isalWWWikiMWWWWWAñ§¾¾&fAmm I I ||||||||||||||||||||||||||||||||||||||||||||| |awetales_4aeo_252e_142s.sav s42e|27se l steo 2520 |eso 21se lste |47e li22el i2e l maa l2ce4 |es2 |4es i s2 |2sse|2ats |Se4 isos |142 |Sos |495 |254 |2ae l es ti voi age vaalations >sa for Level es >tomfor Level c 2)Er maina series can Bases (une sme)and Transformerte<tia<>eases Appendix 3-4 Pg.2 ---Post-transient Results For Bridger /Anticline West vs.Aeolus South eAE AsE PTPAT FLows no p aucTvE noiNavAntorayanadedeeliseretemismemmarens wonsttoAcolo3 2 *comuENT .wat iana 49eo 24eo 17eo.sav 17eo 2eso 17eo 24co 1449 14ee 217 eis 422 24 2cs 217e as eli leo 2eee 2171 ase 21as 77 504 aa2 isi 217 Tis .....o up .e se ..on il aos en es-Pou sa4eavune 17ea 2554 1906 2024 la2o lasa 2e4 ser 372 104 210 2940 757 e14 isa 2996 2948 saa 29ca ao 502 aac leo 222 745 e o ase 4 1423 ese e47 eas aos 2ee 245 47 o o amicoER saicoEaA 345 wi ese2 Noe 12 ao4 en es-aminamila4eavune 1799 2497 isaa 1879 122a laea ao2 607 aos so 2aa 2998 vez ela 14e 2996 29a4 a27 29ca al 499 a27 las 2as 758 e o 774 lisi e42 94e ses 12ee 17:e-loss e21 379 -ame -Tas -sos -sos lose isos 1259 es2 Tes ese aos 2es 2ae me a siccaAsses sa o amicoER aocuseos2acal ei.se Noe la ao4aen es-aminamila4eavune ivan 2ess 1820 lese 1201 1929 264 567 12e 12a 254 221e 77o esi las 2996 2oas 287 29ca 70 457 295 177 2oe Taa 575 o 425 14cs 012 1301 laio 1623 2146-1407 lo2e eos -442 -lo11-12ee 1243 lase leae 1475 677 ela e17 2es 273 240 -To e emsNFaces 54 o oteNcANY2aota4eel emsNFuaes o.ese 14 ao4eed es-aminamila4eavune leva 2ace lese 1424 -lies asi 227 529 -lai lea 2ea 2ao7 779 ea7 117 2996 leaa 242 29ca ao 49a 2ei 164 iss Tal 1150 o aos leos see lase 1415 1795 2221-1490 loss 541 -470 -1905-1361 134e 1540 177e iset ee2 Ts2 604 2ee 249 236 -74 lo emsNFaces es o NAnoiN 2aotilsel 92.52 emsNFuaes o.se4 is ao4ceu es-aminamila4eavune 1794 25os 1945 lasa -12a2 lasy aos eoe 374 si 249 212o Tea e17 iso 2996 29ae a2e 29ca al soo a27 leo 2a7 754 o o mot 12e2 931 los?1997 142e 1936-1226 -slo 44s -400 -ee?-1060 lose liso 1429 1327 est eco eli aoe 2ei 236 me o ---o aiuoNs161/essi 92.92 Noe le aos en es 34et2acavisansto<mer 1709 2648 less 2ass -144e 1454 21e 521 421 12a 20e 217e 740 e11 leo 2996 2970 ase 29ca 77 son aa2 192 217 719 e o 957 isos 12e4 1657 leve isto 2507 -lese 12ee e44 -es2 -1424 -1654 1654 less 1769 1574 Til saa ers 2so 2e?24e as o ---o INTERMT-INTERMTx 345 wi 73.34 Noe 17 aos ausennoli-coanena4ekvune 1724 2e19 ivaa 2248 -1427 142e 2ai sa4 ase 112 22a 215e 74e e11 154 2996 2949 a42 29ca ao see saa 192 214 745 e o 927 1445 1217 152e leas lea2 2859 -1571 1217 eaa -74a -1236 -1506 1491 leas 1690 leos 7os 992 ese 302 2ee 251 as o ---2 caAcE-sooA lae ol 115.43%Noe la soeaanseanoli-coanena4ekvune+a asausca 1742 2582 1827 2641 -9371 1427 250 saa 400 10e 22e 2948 750 e11 154 2996 2949 asi 29ca al see aa2 192 294 Ta7 o o 99 1402 ilas 149e 1430 1736 2267-1492 112e es2 -Sou -1950-1390 lael 14e4 yeaa 14e4 7oa ese ses aos 2e4 24e as o ---o caAcE-sooA laeol 76.57%Noe e aseResolvesoLissetKmon-coanena4ekvune less 2es2 less 24ca -1451 1459 21e sia 425 124 212 2978 Tas e11 leo 2996 2970 asa 29ca 77 son aa2 192 298 719 e o see leie 1245 yeas 1654 isee 2611-1660 112e a2e -Sou -1457 -leas 1627 lesa laco 1564 Tia mi es4 2s?2es 251 es o ---o amicoER-eaicoEaA 345 wi 67.14 Noe 20 aos Km on-aosana4ekvune 1702 2648 1700 2asa -9448 1455 217 sie 422 124 20e 217e 740 e11 leo 2996 2970 as7 29ca 77 son aa2 192 298 720 e o seo lece 12eo leaa leel lesa 2469-1654 1249 796 -623 -1292 -leie 1643 1643 1761 isti 712 m2 esi 2s?2so 251 as o ---o INTERMT-INTERMTx 345 m 73.34 Noe 21 aos eo lus-sosaneocavune 1729 2eia 1614 244e -94a4 142e 222 524 402 117 210 21e4 741 e12 iso 2996 295e a45 29ca a2 507 aas 192 22a 719 e o see 1474 121e 1491 1524 isso 2429-1566 121e aos -ele -1354 -lee2 157e leos 174e leas Tio me esi 2s?2es 2eo as o ---o amicoER-eaicoEaA 345 wi 67.16 Noe 22 elo sosansoota4eavisanerosmer 170e 2e45 leve 2498 -94aa 14ee 298 52o 4a4 125 212 2978 749 ela leo 2996 297e aos 29ca 75 502 aac 191 220 719 e o seo leo4 1257 1652 leeo 1950 24ee-less 12ee ele -eae -1362-leol 1540 yeaa 1761 lees til m2 es2 2se 2ee 2eo as o ---o INTERMT-INTERMTx 345m 73.34 Noe 23 eli sosana45/2acavisansformes 1702 2649 1692 2404 -944a 14e2 21e 521 427 124 214 2977 740 e12 161 2996 2970 aos 29ca 7e 504 aa2 191 21e 720 e o 964 leio 1255 ie2e 1644 isa?2479-1647 1252 795 -e29 -lase-leia leis leaa 17ee iste 712 see es4 2s?2es 2eo as o ---o INTERMT-INTERMTx 345m 73.aan Noe 24 e12 Po lus-cedarmissocavune 1795 2eia 1651 24ca -9484 lae7 21e 529 a2e 107 isa 2152 Tae aos 162 2996 2998 ala 29ca se 522 a44 19e 22a 719 e o 972 1479 12ao 1420 year isee 2342 -964 1229 ele -e2e -laac -1512 yeaa 1602 174e 1544 715 see eso aoo 2ee 252 as o ---o tocusT -MoaA las el ea.sta Noe 2e e14 cedarmia-memin wa econvune 1797 2eos 1645 24ca -94ao lae4 220 529 a27 loe sea 2950 Ta7 604 161 2996 2996 a12 29ca se 529 a44 19e 224 720 e o see 1461 1993 lati 14ee isos 229e -loos iles Ts?-sos -12e4 -1457 1479 lees 1720 1525 714 942 es2 aoo 2ee 252 47 o ---o tocusT -MoaA las el es.osa Noe 27 ele um oint-mems wa econvune 1706 2645 1691 2401 -94ae 1461 298 52o 4as 125 210 2977 749 ela isa 2996 2977 se4 29ca va noi aac 191 21e 721 0 o 934 1473 117e 14eo lasi 1345 227e -leoa 1961 767 -77s -1234 -1429 lave lese 1723 yeae 70s 997 ees 2ee 2ee 249 as o ---o INTERMT-INTERMTx 345 wi 73.34%Noe 2e ele sosan-Mid outeocavume ivos 2eso 1680 2ase -94ea 14ca 298 520 aso 115 2oa 21e4 Taa eaa 159 2996 2944 aa4 29ca as sia aas 194 22a 720 e o see 147e 121e 1499 laso leia 2372 -lesa 1213 aos -e14 -1314 -1512 leo4 1592 1741 1542 Tia saa eso 2se 2s2 251 as o ---o MIDeoiNT laat2ao el 74.49%Noe 2e e17 Me ointecota4eavisanerosmer 1704 2eso less 2411 -94as 14e7 298 52o 4sa 127 29a 2981 742 e14 131 2996 2988 aos 29ca as 499 a2e leo 225 719 e o see isce 12ee lea4 1647 1722 24e2 -1647 1259 saa -e42 -lase -1623 leis ie4e iras isti Tio 940 eso 2se 2ee 250 -To o --o tocusT -MoaA las el es.lom Noe ao ele um omta45/2acavisanerosmer 1709 2648 less 2ass -9450 14sa 297 sia 498 12a 2oa 297e Tas e11 162 2996 2967 ass 29ca 7e son saa 192 298 719 e o 962 leio 12e2 1645 leeo 1949 2492 -lese 12es amo -eso -1414 -1642 yeas less 1769 leve Tia 944 esa 2s?2so 251 es o ---o MIDeoiNT laat2ao el 75.69%Noe al als sosan-Adelader234ekvune ivoa 2644 less 2asa -9458 14aa 217 sie slo 129 207 2973 Tas elo 154 2996 2969 ano 29ca al 507 aas 192 21e 720 e o see 149e 124e 1610 le2e 192e 2457 -leas 1247 e25 -sas -1375 -lese 1562 lee2 ives lee2 Tia 941 esi 2se 2ei 251 as o ---o INTERMT-INTERMTx 345 m 73.34%Noe 32 e2e Addaide-me ointe2a4ekvune 1709 2648 1700 2as7 -1452 1450 297 sia sie 12a 2oa 297e Tas e19 isa 2996 2968 ass 29ca va see saa 192 217 719 e o sea leos 12e2 1642 1660 1976 2611-1665 12e?sa?-e4e -1400 -le2e leia lesi 17e?1574 Tia 944 esa 2s?2so 251 es o ---o INTERMT-INTERMTx 345 m 73.aan Noe sa e21 sosan-Adelade-meointela4eavune ivoa 2644 1700 2asa -9458 14aa 217 sie slo 129 20e 2973 Tas elo 154 2996 21e2 ano 29ca al 507 aas 192 298 720 e o ses 1497 1245 leoa 1621 1940 24es-leas 1245 e21 eaa laea 1562 isel le2e 17ee lee2 Tia 941 esi 2se 2ei 251 as o ---o INTERMT-INTERMTx 345m 73.34%Noe 34 e22 sosan-Hot2acavume 1702 2e47 ivoo2ase 1454 144e 21e sia 414 122 207 2975 Tas elo 157 29962965 asa 29ca va see saa 192 219 719 e o 961 leos 1257 yeas lesa 1946 2474-1654 12e2 eaa -en -1396-1626 1622 le4e 17e2 isto Tia 943 es2 2s?2ei 251 es o ---o MIDeoiNTiaat2aori 19.11%Noe as e2a um omt-someaenenea2acavum 1702 2e47 lesa 2asa -1451 1449 297 sia 414 122 2oa 2975 Tas e11 162 2996 21e4 aos 29ca 77 see saa 192 219 719 e o 961 lece 12ee ie2e lear 1992 2465 -le4e 1261 eae -en -lase -1621 1614 1647 ivaa isti Tia 943 es2 2s?2so 251 as o ---o tocusT MoaA las el er.ess Noe se e24 Muomt-aatueenake2acavum 1709 2e4e less2ase 1449 1454 297 sia 421 124 20e 217e 740 e11 leo 29ee21es ase 29ca 77 son saa 192 217 719 e o seo leos 1255 1607 ieos 1862 24ee-leal 1259 saa -e4a -laeo-leol lese 1645 17e4 1573 712 942 es2 2s?2so 251 es o ---o INTERMY INTERMTxa4em 73.34%Noe 37 e25 Me omt-osam2acavum 1702 2648 less 2ass -1450 1452 297 sia 498 12a 2oa 297e Tas e11 161 2996 2967 ass 29ca 77 son saa 192 298 719 e o 961 iso?12ee leaa lesa isse 247e -1654 1265 ear -e47 -1407 -lea4 yeaa lesi 17ee 1572 712 943 es2 2s?2so 251 as o ---o INTERMY INTERMTx 345 m 73.34%Noe se e2e aatnesnake-aoisesenen2acavume 1702 2e47 less 2asa -1451 1449 297 sia 415 122 2oa 2975 Tas e11 162 2996 21e2 354 29ca 77 see saa 192 221 719 e o 962 leos 1261 le4e lese 194e 2465 -less 12es amo -eas -1417 -1645 1645 1654 17e?1573 Tia 944 es2 2s?2so 251 es o ---o tocusT MoaA las ei 90.54%Noe as e27 osam-aoisesenen2acave e 1709 2e4e less 2ase 1448 145e 297 sia 42a 124 20e 2977 740 e11 leo 2996 2979 as7 29ca 77 son aa2 192 217 719 e o 961 leio 12e2 lesa 1671 1961 2eo2 -lees 1270 e41 -esi -1420 -1650 1649 1657 1790 leve 712 943 es2 2s?2so 251 as o ---o INTERMY INTERMTx 345 m 73.34%Noe 40 e2e nome wa eco/2acavisanerosmer 1702 2e4e lesa 2400 -1447 145e 217 sie 424 124 20e 2977 74o e19 isa 2996 2970 asa 29ca 77 504 aa2 191 219 719 e o seo leos 1259 1640 lese 1947 24ee -1650 12ee cas -e4e -1492 -leas leaa 1654 17e?1573 712 942 es2 2s?2so 251 es o ---o tocusT MoaA las el es.com Noe 42 eso Po lus-sosanelassavune less 2eso ivon 2ass 1459 144e 21e sia 49e 122 20e 2975 Tas elo 157 2996 2965 as2 29ca va 507 aas 192 298 719 e o see 1517 127e leva 1667 1974 2611-167e 12ee cas -ess -1439-1656 less lees itse lesa 714 seo ess 2se 2ei 252 as o ---o INTERMY INTERMTx a4e m 73.aan Noe 43 eal Po lus-sosane234ekvune ivoo 2e4e 1704 2as4 -1457 144e 217 sie 415 122 20e 2975 Tas elo 157 2996 2965 as2 29ca va 507 aas 192 298 719 e o sea leos 1261 1647 leea 1951 2490 1661 12ee eae e4e 149e 1eal 1629 1649 ivaa leva via 945 eaa 298 299 251 es o ---o INTERMY INTERMTx 34eel 73.34 None 44 aa2 Po lus-x osta4eavume les7 2esa lese 24ca -1461 1450 21e sia 420 122 214 297e Taa elo 157 2996 21ea as2 29ca va 507 aas 192 220 719 e o 972 1525 1272 lesi 1641 isas 2491 1661 12ee 727 aoi 1959 lese less lees leol les2 714 954 ses 297 290 252 as o ---o amicoER saicoEaA a4eel es.ae None sa savun.174e 2eoo leel 2asa -la2a 1498 2aa 540 455 12a 207 2973 Tsa e22 les 2996 22co ass 29ca es 488 a2o 187 295 Tao o o sai lass 12 se os es 97 es me 4e assaAedas Antei esco+aAscas+eocuwAeo se isso lese isos 2373 1627 losa was sai 1365 14ao lesa 772 im gm leo EME leo de sas Aedas ancimescosRAsc a+eocuworo+uon 2250 1255 als 1978 -902 840 171 472 -laa 27 27e 1926 775 72a 107 2996 1902 17o 29ca 92 4ee 297 177 182 all o 600 ato -e4e 1419 2ces 2122 2341 2741 19ee 1434 love 1932 lees 2142 21eo 32e lies es2 ees 49e 322 14e las 2oe as 49 wvoro 34.5 Ta e a Do 2aos2 el los29 asa6ea e as +AÛa a+eocuwAeoluso o assa 2994 2,22 -zaas 12ea sua aos aos so you zolo use «s»les asse azo4 4ee zios -94 aze iso mar was res o 600 940 1525 -Sa2 -es?-eco -ear 1231 -Tao -452 aos 360 -eco -e17 -e4e sai 1364 1622 525 oal 72s 244 22s 2oe ma o monanza a4e ao o an a4e »,ve.ers none se sae Aedusuonasco+aAscas+eocuwAeolusoso sto leaa -ese -e2a -ee?-922 1279 -759-473 423 are -eoa -e44 -eva ici?149e ie2e 52e oss 742 255 24e 212 wa o o amicoER saicoEaAa4eel 96.40%None 67 aa?Aeduseco/2acavisaneroso,lea7 2eaa less 2asy -9448 1445 298 52o 49a 11e 210 2152 745 ela 15e 2996 21ee ass 29ca 7e saa aal 191 217 719 e o ae leio 1964 1611 lese 1961 2eol 1654 1211 e43 e4e 1414 yeae leaa 1654 itse 1562 Toe slo e11 299 2ea 24s as o 2 Asotus eco/2ace2 la4ss¾None se saa Aedus-wmastas2acavune lea7 2555 le4a 2379 144a lass 29a sie 360 7e 21e 2oa2 Tea oss 157 2996 2950 a44 29ca 74 «sa a29 las 294 Tai o o see 1567 laas 1727 1732 2cia 2544 1712 1324 ese ero 1470 1793 1710 1667 yeas 1627 eye 952 es?244 227 235 44 o o DAveuomN-oAveuves lie el 87.93%None es aas Aedus-Freezeout2acavune 1679 2e7a less 2419 14sa 1454 22e 528 421 127 20e 2989 742 607 leo 2996 2970 aos 29ca 7e 504 aa2 191 21e 728 e o veo le2e 1236 1614 yea4 1943 24e?1644 losa sai e25 laea 1602 leos 1649 leoa 1594 712 928 -298 292 247 To o o MINERS-etAnE 2ao el ao.es None eo e4e sonanzamonaa4eave e 1846 2685 97ao 2479 9ee4 la4a 279 575 a12 si 298 2379 14o ivo sea 2996 2101 2as 29ca 59 4as 2ea 167 227 77a o o se isos -795 117e 12ee 1622 214e 1325 ess 72o ese 111e 1224 12ee laet les2 14ee som ess 4e2 2ee 253 227 -o e aoNANzA-veRNAL las el lis.es None ea ael oaveuon-oncait 2acavune 9eaa 2555 1644 2avi 944a laso 293 595 ael 77 21e 2ca9 yea ese 157 2eee 29 o a44 290s 74 4ea a29 9aa 294 72a o o coe 1564 laaa 1720 1727 2014 2541 970s Tali est see 14ee 1707 1704 1664 yeae 1623 e7:972 Toe 2as 220 234 44 o o DAveuomN-oAveuves lie el es.2om None e4 se2 s co-Mustan 2acavune 1795 2529 9esa 2aos 9424 1400 197 49e avi vi 297 20ea 759 e49 ine 2eee 295e a4a 290e 77 49e a27 leo 2oa 727 o o 71e 1451 1949 1690 1751 2047 252e 1709 laci see sia leis ives 17ee lese 1773 1543 eso Tom esi 253 236 3 se o o RiveRToN-wvoro 2ao el ea.ae None es asa Rive<ton-Atantie2acavune 1730 247a 97oa 2aea 94ea lase 209 ca aea as 220 2052 74e ess is?2eee 2976 asa 290e 75 497 a25 989 294 797 o o 756 1443 lori leal less 1922 2457 isoa lias e2e e2e lave leve lese lees 1757 1527 ees 745 eri 290 2e?2ae me o o amicoER-Rocuseos2acal 67.62 None Neauvevdevs>ion ee asaanive<ton-Atantic2acavte+oaccas 1739 2475 1707 2aes 94ea 1395 209 02 aos aa 220 2050 74e ess is?2eee 2976 asa 290e 75 497 a25 989 294 797 o o Tas 1435 lo4e 1514 less 1994 2452 ineo 1999 e25 e22 laet lese 1577 1662 ives 1524 eas 725 eso 27s 232 235 me o o amicoER-Rocuseos2acal 67.55 NoneMoimummares,>>a i .7 N A k >F.A N-1 csneda,> To WN i M Ta co2 en er posse1+w2a4eavtmes lava 2ava 225a lae7 1900 1295 a44 esi 2aa e5 212 2oes 788 eis 141 2996 2990 aos 29ca as 497 a24 las 2oa ao7 o o 2e auixNotta4e es 2 eaicoER-eaicoEaAa4eel 126.19 Noe 2a21.eaAms 74 co2aen es-Pouwse1+e234ekvuneswaAs 1799 2559 2oa4 12ao lose loss 298 eaa se los 231 2977 Tas esi 127 2996 2017 2ea 29ca 74 45e 2ea 17e 185 771 575 o 497 1231 Tao 1999 12oe lea4 2007 12e2 723 ear ses loal 1201 1996 1254 14e4 laal ees ee4 sea 2ss 2e4 235 as a i saicoER-eaicoEaAa4eel 110.95 Noe 2o41.4aAms 75 co2eed es-Pouwse1+e234ekvuneswaAs 1728 27ao loos loaa loss 797 252 555 -lao 14e 24e 2279 Tea ese 111 2996 1921 229 29ca ea 49a 2eo 164 les 746 1150 0 -724 1364 e4e lais 1404 1793 21e2 1429 eco Tom eri 1212 1420 1407 1471 lese 14e2 eel 717 esa B 261 237 -72 o o amicoER-eaicoEaAa4eel 96.46 Noetecoaenes-awamano:+add er-Pouwseianskv lece 2a22 22ee 1241 1002 1298 saa es2 2as 4e 24a 2o4a 795 e2a 137 2996 20s7 294 29ca se 495 a22 187 2ai aos e o gmië¾m--EdWÐ--e2e 2eo 2ea WMimm E -e11 -esi ME 424 a14 2so 20s 42 o siccaAss es ee i saicoER-Rocuseos2ac al los.com i emsNFuaes o.eso 77 cosaan es-awamanos+adder-Pouwseianskv 1829 250s 2112 loss loos los7 aan e42 e4 en 261 215e 795 ess 124 2996 2006 2eo 29ca 75 454 291 17e 200 777 575 o maa loss -704 -882 -s22 liss 1648 loao ear ase 360 -729 -879 -ees 1097 12ea 121e ese ea7 sie 300 279 22e 47 o emsNFaces es o amicoER-Rocuseos2acal es.4:n i emsNFuaes o.se? Te coated es-awamanos+adder-Pouwseianskv 1757 2685 1947 ese loco 797 2as sea -977 las 274 2269 799 eas los 2996 1999 221 29ca ea 411 258 sea 179 757 1150 o was 1290 -79e -1911-1956 144e 1995 124e Tae 4ee 414 -een -1921-1097 12e2 1522 last e42 eso 641 2eo 259 231 -71 a emsNFaces 74 o NAnoiN 2aotilsel 99.een i emsNFuaes o.87etocoaoenesaux+ade e-Po ela4e+RAs,2Jeoveatni 1754 2eva 1945 947 loa4 aos 287 sel -129 137 265 2252 794 esi 114 2996 isaa 2ae 29ca en 421 2ee lee 174 749 1150 0 -720 laae es?-12eo -lasi 1654 21aa last e4e 599 496 -1991 -1329 -132e las2 161e 1434 eso 714 es2 2e4 2ee 234 -71 o -----o JEFFERsN-JFasNemA lei el 77.42%-None ao co4 en es-amamano:+adder-Pouwse234ekvilece 2a22 22ee1241 1002 1298 saa es2 2as 4e 24a 2o4a 795 e2a 137 299620s7 294 29ca se 495 a22 187 2ai aos e o see -Tea 457 -elo -54e -ess 1214 474 2eo 2ea -445 -ell -e17 -eal FMW-esi ele 4e?4a4 314 2so 20s 42 o siccaAsses ee i saicoER-Rocuseos2acal los.com i emsNFuaes o.eso el co4aen es-amamanos+adder-Pouwse2aesavila2e 250s 2112 loss loos los7 aan e42 e4 en 261 215e 795 ess 124 2996 2006 2eo 29ca 75 454 291 17e 200 777 575 o mae lose -704 -ee2 -922 1999 164a loao ee7 ase 360 -729 -ers -ees ici?12ea 121e ese est sie 300 279 22e 47 o emsNFaces es o amicoER-Rocuseos2acal es.4:n i emsNFuaes o.set e2 coated es-amamanos+adder-Pouwse234ekviivar 2685 1947 ese loco 797 2as sea -977 las 274 2269 799 eas los 2996 1999 221 29ca ea 411 258 sea 179 757 1150 o was 1290 -79e 1911-1956 144e 1995 124e fee 4ee 414 -een -1921-1097 12e2 1522 last e42 eso 641 2eo 259 231 -71 a emsNFaces 74 o NAnoiN 2aotilsel 99.een i emsNFuaes o.87e sa cose en esaux+ade e-Poe234e+RAs,2Jeoveatni 1754 2eva 1945 947 loa4 aos 287 sel -129 137 265 2252 794 esi 114 2996 isaa 2ae 29ca en 421 2ee lee 174 749 1150 0 -720 laae -es?12eo -lasi 1654 21aa last e4e 599 496 -1991-1329-132e las2 161e 1434 eso 714 es2 2e4 2ee 234 -71 o o JEFFERsN-JFasNemA lei el 77.42%Noe wieleca satoadoro e4 coe sosan-Poumaa4ekvoto les7 2648 1795 2aa2 1478 142a 297 sie aos lia 210 2970 Ta7 607 159 2996 2959 asi 29ca as 512 aar lea 21e 720 e o -ses iso?1265 1642 -1649 1925 24ea 1657 12e?saa ame -1492 -lese -1562 yeas 1770 1572 715 sei ese 2ss 2s2 252 as o o INTERMT-INTERMTx 345 wi 73.aan Noe es cosa sosan-Po utsa4ekvoto wy este is 1649 2789 leoa 2102 1498 1949 las 4as 14e 15e 2ao 225e 74a e4a las 2996 2o4a 295 29ca va 467 ao4 181 193 710 575 o -942 lece 1244 17ea -17eo 2007 2eie 1737 laat see -ass -leia -1735 -leet 17ea 1667 167e ess 923 e72 2ei 271 24s -72 o o FRANNIE-vetowice 2ao el 79.44%None cenTa Notae a se coe Po lus-sentamonda4ekvoto laa7 25ca isaa 227a loao isas 289 see 52a saa 204 2965 Tao 644 191 2996 22e5 454 29ca as 452 2ea 177 212 758 e o met 1974 iles 1409-1425 1742 2294 1492 ilea 772 -794-12co-laas-late ice2 1271 12ao ee2 ese eas 295 277 236 -To o o caAcE-sooA laeol 64.41%None et coeapo lus-sentamonda4ekvoto+a ass1/2erias7 2470 1640 215e loaa 1585 299 aos 529 lao 210 2959 784 e45 las 2996 2261 449 29ca as 452 292 177 2oe var o o mai 112e 1077 12ee-12ee leos 214e lave losa eel -ees-loro-11st-12:a 1022 1225 lisa ese e22 e21 297 27e 232 as o o PAtisAoE-Rocuseos2acal 79.16%None se co?sentamand-Te<mmala4ekvoto 1721 2e2e 1690 2asi 1414 1472 211 512 4as 124 2oa 2974 74e eis 164 2996 29aa aos 29ca 72 «sa a2a leo 217 720 e o -947 1429 1242 lesa -less 1906 2452 1620 1240 620 -aao-lasa -lesa -lece isto 1662 14e?Toe saa ete 298 292 251 es o o INTERMT-INTERMTx 34eel Ta.asm None es coa Po lus-am art+Poulus-sosane234ekvune 1694 2es2 ivoo 24ca -9477 14aa 297 sia <oa 11e 21e 2172 Tae saa isa 2996 2152 a44 29ca as 599 aar lea 221 720 e o -974 1521 12ea 1622 -1592 lese 2445 yeaa 12ea ess -780-1905 -1620 -leos ie4e 17ee lese vie see ses 298 299 252 as o o saicoER-eaicoEu 345 wi so.aem None si cos eo lus-sosane2 34ekv+Treasureton-esaa 1709 2e47 ivoo 2as4 -1451 1447 21e 521 417 12a 20e 2975 Tas e19 isa 2996 21ee asa 29ca va see saa 192 298 720 e o -sel leo4 1254 1634 -le4e 1saa 24ee 1651 12ee saa -saa-14o2 -leia -leia 1617 1774 lees via 943 ee2 297 290 251 es o o INTERMT-INTERMTx 34eel 73.34%None s2 cio Po lus-sosanelassav+Treasureton-asad 2 ivoo 2e4e 1702 2as4 -9453 144a 21e 521 417 12a 20e 297e Tas elo isa 2996 21ee asa 29ca va see aa4 192 298 720 e o -see 1512 1270 1660-1673 less 24es lese 1277 e42 -a49-1425-ye45-yeaa lea2 17ee leve Tia 946 ee4 297 290 251 es o o INTERMT-INTERMTx 34eel Ta.aan None sa cil Po lus-sentamonde2+Poulusve<mmala4e 1891 2529 16912ace -1965 inel 25e ses 502 laa 204 2965 77a ese 184 2996 2245 4a2 29ca 47 4e4 ao2 lao 214 740 e o asi 12:a 11eo 1408-1425 1739 2289 1490 114e Tee -Taa-11ss-la42-137e-124a lass 12es eye ses e4e 297 2ea 242 as o o caAcE-sooA laeol 76.76 None 94 c12 Po lus-Tenomala4eav+Treasureton-asad 2 1747 2599 leel 2ae4 -laas 1498 2ai saa 455 12a 207 2172 Tsa e21 les 2996 22co ass 29ca es 488 a2o 187 21e 726 o o -927 laes 12oa isio-is2e 1eal 2377 lese lies 794 -soa-12si-1475-14si-14ee 1564 1444 ese 911 ese 297 2e?247 es o o caAcE-sooA laeol 76.13%None as cia sosan-Adelader2+eosan-Aoxaid omtala4e 170e 2eaa 1701 2377 1487 lass 297 sie a7e ila 200 21e2 Taa see lae 2996 2949 a2a 29ca 92 sie a4e 194 221 721 0 o -see 121e 1523 yeaa -lear 2:a?less 12ce -791 aos -1279-14ea -1435 -1572-1727 yeas -saa eso ME 294 M WM as o o NuNT laat2ao e2 76.62 None se c14 sosan-Adelader2+Midoet-Adelaides234ex ivoa 2e4a 1700 2asa -9459 1437 217 sie 40s 129 20e 2172 Tas elo 154 2996 2969 ano 29ca al saa aa4 192 21e 720 e o -ses 149e 124e 1603-1621 1936 24ee leas 124e e21 -saa laea 1562 leeo 1627 17ee lee2 Tia 941 eel 298 299 251 as o o INTERMT-INTERMTx34eel 73.34 None 97 cie sosan-Adelader2+eosan-Hunt2acavimes 9704 2640 1709 2aas 1465 1425 21e sia aos 11e 204 2970 Tas aos iso 2996 2954 a45 29ca as ses aae sea 221 720 e o -see 1492 1240 isee-lece 1901 2415 1625 1236 ele -827 1347 isee 1549 161e 17eo lese Tia 940 eso 298 292 251 es o o MIDeoiNTlaat2aoel 79.21 None se cie sosan-am ut+aosan-Adel-Mid omtala4ekva ivoa 2e4a less 2as2 -9457 14aa 217 sie slo 129 207 2172 Tas elo 154 2996 21e2 ano 29ca al 507 aas 192 298 720 e o -957 1493 12:a lesa -1610 1927 2456 1627 1224 ??e -807 1247 lesi 1562 1611 ives les?712 eas eso 297 299 251 es o o INTERMT-INTERMTx 34eel 73.34 None as cie sosan-ammt+Mi omt-Ademider234eavam 1702 2e47 1709 2ase 1451 1450 297 sie 498 12a 2oa 2975 74o e19 isa 2996 2968 ass 29ca va see saa 192 217 720 e o -sel leos 12eo 1621-164e ises 2495 1652 124e 792 -821 127e 1594 leos-leae 177e lees 712 943 ee2 297 290 251 es o o INTERMT-INTERMTxa4eel 73.34 None ico cis sosan-am sta4ekv+eosan-Hunt2acavimes 97o2 2e4e 1709 2ass -9453 1445 297 sia 414 122 207 2974 Tas e11 157 2996 2965 asa 29ca va see saa 192 21e 720 e o -see leol 1244 1613-1641 1932 24ee 1641 1240 ye7 ale 12ee isso 1614 yeaa 1773 lees 712 940 eel 297 290 251 es o o MIDeoiNTiaat2acal 79.14 Noneloic2esosan-Adel-Midoute1+Mi omt-Adelades2a 1704 2e49 1709 2aas 14ea 1429 217 sie 404 11e 205 2970 Tas aos 159 2996 2958 a4e 29ca a2 ses aas lea 217 720 e o -see 1490 12:a leso-lees 1957 24ee 1621 1222 798 -814 1290 leo2 144e lese 1762 1564 Tia 940 eso 298 299 251 es o o INTERMT-INTERMTx 34eel 73.34 None 102 c21 sosan-Adelaidomtala4eav+aoranmunt2aux 1704 2640 1709 2aas 14ee 1425 21e sia aos 11e 204 2970 Tas aos iso 2996 2955 a45 29ca as slo aae sea 220 720 e o -957 1491 1237 1579-1597 1994 2425 1624 1234 elo -824 laal lesi 1525 1610 17ee less via 940 eso 298 292 251 es o o MIDeoiNTiaat2acal 76.94 Nonelosc23sosan-Adele234ekv+eosan-udomteconv 1792 2eis 1677 2aas 1487 lava 298 520 asa los les 295e 737 aos iso 2996 2128 ala 29ca 92 sie a42 195 227 721 0 o -954 14eo list 1437-1324 1795 22e2 1562 lisa Tai -793 1252 1439 1413 1562 1710 1522 714 937 ers 29s 294 251 as o o MIDeoiNTiaat2acal Ta.es None 104 c24 en es-Pou se1+oosnen-x osta4eavun 17e4 255a isla 2coa lais lass 265 sea aos los 2oa 2940 757 e14 isa 2996 2945 a4e 29ca ao 502 aac leo 221 745 e o ase laea see lais -laee 1704 2236 1427 eaa 2es -404 1210 1344 134o 1404 les?142e ese e4e eae aos 295 245 47 o o saicoER saicoEu 345 wi 97.99 Nonelosc24aenes-Pou se1+oosnen-x esta4eavun 1709 2790 ivan 1794 1299 lias 227 529 129 iso 231 22as Tea e4a saa 2996 2047 29e 29ca es 4eo 298 iva 194 726 575 o was leal 104 1640 -lete isea 2494 lees see 324 -482 14ee lesa leel ieri 1624 leos est eri e47 2e?27e 24e 71 o o saicoER saicoEu 345 wi es.7 None N2csneda .wat iana mooo 24eo 17eo.say 1700 2554 1600 2400 15ee 1264 221 52a 224 12e 227 2944 745 ela les 2996 224a 429 29ca es 507 aio 182 21e ese o o aas Aedas AnnemescosRAsc a+eocuwom +Mon 22:a 1212 734 2010 loao eye lei 4e2 -aos 41 291 1929 777 71e 117 2eee 1979 244 21as el 472 27e les iso 77o o eco 2 wvoPo 34.5 52 a saico 2ao s2 970 Noe MINERS AnE 2ao e 98.54% .wat iana mooo 24eo 17eo s.se 1700 2577 1600 2400 1eor 1231 215 517 iso 127 2a4 2cos e4e 4a2 17o 2996 2asa 582 2oas es 504 aae 192 21e ese sas Aedas AnteimescosRAsc s+eocuwom +uon 2241 1992 70e 2002 losa sea iva 474 -aaa al 27a ivel eas suo 115 2996 29ao ass 2oas al 465 aoi iva 194 Tai o 600 2 wvoro 34.5 es i saico 2ao s2 a 4%Noe easedon ERate 629 MvA MINERS AnE 2aos asism easedonERate 629MvA .wat iana sooo 24eo 17eo s.se 1700 2479 1500 2400 1709 losa 2oa slo e 12a 250 leoa e2o aas 17e 2996 2515 701 1995 127 eas Aedas AnteimescosRAsc a+eocuwom +Mon 221e 1947 e21 2027 1962 444 172 472 -545 54 aos lese e43 470 122 2996 1945 74e 1995 se are 299 177 2co 149e o eco o --o saico 2ao s2 sm i exasNFua es .ess illlll!IIIIIIIII III I IIIIIIIIIIIIIIIIIIIIIII I Ill I il 1)voltagevuoisuons >5%for Level e a >10%for Level c 2)exememoseriescap ausestune sme)and Transformerteruaryeuses Appendix 3-5 Pg.1 ---Post-transient Results For Bridger /Anticline West vs.Aeolus Southbound e E aAsscAsa PT ATNFLo onor cTwee mNavA forayshad edisamthenen umma v A wonsvuoAmur.,.o es conneur a towernehtNomogramPoint-Nienalde 4 eewstgians 22se asoo 24eo 17ee 2em 1700 2115 500 2400 2250 421 203 504 -545 147 20e 2071 ees 594 17e 29ee 2eee 102e 1804 47 51 2ee les 257 700 ma o cose we ese.un.reatectora oma÷------+-----------+------+--------------------------------:÷:marm-se - cvTNwoN-KETTLEcx ile #1 10441¾GAosseTERMINAL 138 42 10229¾ ums¾mm ae e21 aorah Adesde Map 45kvu<9e 17o2299294982ase224842o 2ca 50 547 947 20e 2070 ese 594 975 2eee 2e4e le2e 9804 47 5 2ee les 25a 700 e o es 4e 459 e 237e 52 7e zee 23e se se 074 494 4 eso ee4 327 307 24e 7e o None 41 s2e Rameanake-sosesench230kvane 1701211a14ee23es2251419 203 504 549 14e 20e 2070 eas 594 17e 2eee 2e4e 1025 1804 47 512 300 las 258 700 e o ass asa 48 457 500 330 ses 545 43 7ea als 2ee 44 470 ceo 504 4 ea4 ese 328 307 24e 7e o o tocusT MoRA lae#9 744e None 45 eae Popeus..aorah#1345kvane lees299595042sea2258497 202 504 549 946 20e 2079 eas sea 175 2998 2e4e 1024 9804 4e 513 300 185 257 700 e o aes ass ee 49 ese 405 2420 197 e4 a2e eso 323 de4 sor 7 45 52 75 e4e e7e a2e aos 249 7e o None 4e sal Popaus-sotah#234skvane 1700211415022398 2254417 203 504 .549 14e 20e 2070 ese 594 174 2eee 2847 1024 1804 4e sia 300 les 257 700 0 0 ee saa 4e 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s o r a n a 4 e k v u n e 692 240 2 9 7 0 0 2 3 9 8 95 4 9 9 3 6 9 aa7 e43 asa 123 225 293 4 737 604 134 299 6 248 9 sea te o s 92 504 a 24 ett so r a n a 4 5 / 2 a c k v T r a n s o r 69 2 2 4 0 2 9 6 9 2 2 4 0 4 1 5 4 3 9 3 7 e aas 645 asa 123 230 293 5 737 ses la s 299 6 24a a 670 1804 99 soa 374 2 222 737 e o ens 237 995 28 2e 77 225 2 492 492 754 754 er 298 298 298 79 1340 e7e ea os aos 2ee 239 es e oosAce-sooAase 2e eis Mie p o i n t - H e m i n g w a y s o o r v u n e 1896 2as s i e s 2 2 4 o 2 95 3 5 9 3 7 9 aas e44 aso 125 227 293 6 739 see 12e 299 6 249 8 e7e 1804 sa soo a 29 ete mo r a n - M i e p o i n t s o o r v u n e is t a 2aa s t e a 2 2 a s e 15 6 8 9 3 2 6 saa e44 324 995 219 292 3 736 so l 12e 299 6 246 5 e4e te o s too 512 379 293 225 737 e o 648 1999 887 198 3 1983 1793 224 3 ta s t 940 -75 3 -73 3 1923 1299 1249 196 4 1964 ta c o 677 e29 49 9 ace 289 240 64 o --- ---oMioPotNTias/2aos ao e17 Mie p o i n t s o c i a 4 e k v T r a n s f o r m e r is1 4 24c a s s a a 2 4 9 9 95 4 0 9 3 8 9 aa7 e44 asa 12e 22a 293 8 739 607 to e 299 6 25c e e7e 1804 too 499 379 290 227 737 e o e49 1239 sto 129 9 maes assa 223 0 1495 978 -97 8 -7e o 1999 ta t o 1347 120 2 1969 1969 674 e29 -e2 9 304 285 240 es o ---oLocusT-MosAtase at eis Mie p o i n t a 4 5 / 2 a c k v T r a n s f o r m e r is t i 240 2 96 9 9 2 3 9 9 is s t 9367 aae e43 359 123 224 293 4 737 604 ta e 299 6 24a e see 1804 99 ses 375 219 220 737 e o esa 1235 917 tac a ta s o ta s o 227 7 14ao ses -79 2 768 1295 1295 1366 129 2 1973 maa s e7e saa -som aos 287 241 e4 o --- ---oMioPotNTtas/23oe 32 e19 so r a n - A d e l a i d e x 2 3 4 e k v u n e to t a 239 8 1 6 9 9 2 3 9 4 is s a i s s a aa7 e43 359 129 223 293 0 737 soa 129 299 6 24a o set 1804 se so7 37e sa e2e Ad e s a m e - M a p o i n t e 2 3 4 e k v u n e is t i 240 2 9 7 0 0 2 3 9 8 is s a t a a e saa e43 seo 123 224 293 4 737 soa saa 299 6 248 7 ese 1804 sa ses a 34 e29 so r a n - A d e l a l d e - M i e p o r t e 1 3 4 e k v u isl a 239 8 9 7 0 0 2 3 9 4 15 5 8 9 3 5 4 aa7 e43 352 129 223 293 9 737 soa 129 299 6 2489 ee2 9804 95 so7 37e as e22 ao r a n - H u n t 2 a c k v u n e 1892 24o 1 9 7 e o 2 a s e 15 5 5 9 3 6 9 aae e43 ase 122 223 293 3 737 soa 132 299 6 248 4 ee4 1804 94 see 375 219 229 737 e o es t -e s t sta 129 4 1373 1373 226 7 1425 982 784 7e2 1998 ta t a mata mata tie s ta a 2 e7e eat -som som 288 241 e4 o --- ---oMioPotNTias/2aos se e23 Mie p o i n t - s o i s e s e n c h e a 2 a c k v u n e 1892 24o 1 9 e s s 2 a s a 15 5 2 9 3 6 4 aae e43 ase 122 224 293 3 737 soa la s 299 6 24a a ses te o s 92 see 375 219 229 737 e o es t 1239 992 128 8 1369 1699 225 5 1498 es t 7ee 7e2 1999 ta t o 1344 120 5 - 1 9 6 8 ta a 2 e7e ea2 -som aos 287 240 64 o ---oLocusT-MosAtase a e2e ma n u s n a k e - e a s e s e n c h 2 a c k v u n e is t i 240 9 9 6 9 9 2 3 9 8 95 5 2 9 3 6 4 aae e43 ase 122 224 293 3 737 soa la s 299 6 2489 ses te o s 92 see 375 219 223 737 e o esa 1234 sie tao 4 maa4 740 226 9 1432 saa 791 768 1294 1328 ta e a 129 0 - 1 9 7 9 maa e e7e saa som aos 288 241 e4 o ---oLocusT-MosAtase e27 ora m - e a s e s e n c h 2 a c k v u n e is t i 240 3 1 7 0 0 2 3 9 9 95 5 0 9 3 7 0 aae e43 364 123 225 293 5 737 604 134 299 6 248 9 sea te o s 92 504 a 49 e2e He now a y s o o / 2 a c k v T r a n s f o r is t i 240 2 9 6 9 8 2 4 0 0 95 4 9 9 3 7 0 aa7 e43 aos 123 225 293 4 737 604 ta a 299 6 248 9 ses te o s 92 504 374 219 229 737 e o es t 1234 914 129 8 1377 733 225 5 142 985 790 765 1299 1322 ta e a 120 9 ett maa r e7e eat soo aos 287 240 es o ---oLocusT-MosAtase saa 239 8 aso se aa7 e44 asa 22e 2 os 74a e 4 299 6 248 5 see aos e 502 37 682 770 736 os 44 ee4 ca 23e e4 2Aeotusao230«2c4c4 ee co 2 ara g e r - P o 234 v 77 44 2 2 3 9 375 204 97 4 5 9 772 299 sa 22a 201 0 790 697 14 299 6 242 5 693 ao4 too 495 364 207 24 aae o e 232 457 07 ase 49 2 es a4 os as e2 me s 2e es 7 so ott a 4 e 7 es co -aM v 737 225 2 209 2 osa ese 949 453 7ee is as 273 209 6 798 esa se 299 6 23 e 567 804 so 447 aat 194 2ca aos 575 o 224 M¾ 244 es 44 4 224 240 sN F u esaocsos23oososseseae7 co r se n t o m o n d - T e vo t o e2 69 5 2 3 9 79 aaa e4e 370 24 224 74 see e 299 6 249 6 674 ao4 as so as c1 4 so r a n - A d e a d e x 2 + M po i n t - A d e a ex 2 3 4 e k v nos RA isl a 239 8 9 7 0 0 2 3 9 3 15 5 9 9 3 5 3 aa7 e43 359 129 222 293 0 737 soa 129 299 6 24a o set 1804 se so7 37e as ca s mo r a n - A d e a d e x 2 + e o r a n - H u n t 2 a c k v a r , e s is1 4 2 a s e 1 7 o 1 2 a s o 1 5 6 5 9 3 4 2 aae e43 342 199 220 212 8 737 602 125 299 6 247 6 ses 1804 sa ses 377 212 222 737 e o 648 1294 som 125 2 1328 1795 222 7 1392 seo 7ea 744 tas o 1269 1284 198 9 ta s o mate e77 e29 49 9 ace 288 241 e4 o --- ---oMioPoNTias/2aos so ese mo r a n - K i n p o s t + e o r a n - A d e l - M a p o i n t e 1 3 4 e k v a n e s ( R A 9 1 isl a 239 8 1 6 9 9 2 3 9 3 15 5 6 9 3 5 4 aa7 e43 352 129 223 293 9 737 soa 129 299 6 2489 ee2 9804 95 so7 37e 91 ca s mo r a n - K i n p o s t + M i e p o i n t - A d e l a l d e x 2 3 4 e k v i v i e s ( R A 9 1 9692 240 2 9 7 0 0 2 3 9 7 95 5 1 9 3 6 6 aae e43 seo 123 224 293 3 737 604 ta a 299 6 248 7 ese 1804 sa ses a 92 ese mo r a n - K i n p o r t a 4 e k v + e o r a n - H u n t 2 a c k v i v i e s ( R A 9 1 is1 2 24c o 1 7 o 1 2 a s s 15 5 4 9 3 6 9 aae e43 ase 122 223 293 2 737 soa 132 299 6 248 4 ses 1804 94 see 375 219 229 737 e o e49 1225 see 127 9 1357 1725 224 9 1407 962 749 735 1902 1282 maar 199 1 1969 1325 e7e eso 49 9 aos 287 240 64 o --- ---oMioPoNTias/2aos sa c2 e mo r a n - A d e l - M i e p o i n t e t + M i e p o i n t - A d e l a l d e x 2 3 4 e k v y , e s isl a 239 6 9 7 0 0 2 3 9 0 95 6 9 9 3 4 8 aa7 e43 34a 12o 222 212 9 737 602 127 299 6 247 9 ses 1804 97 soa 376 94 c29 so r a n - A d a - M i e p a n t e 1 3 4 e k v + e o r a n - H u n t 2 a c k v i i n e s m A is1 3 2 a s e 1 7 o 1 2 a a s 1 5 6 5 9 3 4 2 aae e43 34a 199 220 212 8 737 602 12e 299 6 247 5 657 9804 sa ses 377 212 222 737 e o e49 1294 som 124 7 1324 1732 2241 ta s a 958 -76 0 742 1940 1252 1268 197 8 1949 1314 e77 e29 49 9 ace 288 241 e4 o --- ---oMioPoNTias/2aos 95 c2 3 so r a n - A d e x 2 3 4 e k v + e o r a n - M po i n t s o o r v u n e s 9629 237 7 9 6 7 9 2 3 8 8 95 8 5 1 2 9 4 aas 645 aoo sto 215 299 5 735 sea 19e 299 6 244 9 eat 1804 toe sia saa 214 228 7aa e o e47 1979 875 193 3 1900 1662 299 2 1323 995 -73 0 793 toe s 1960 1972 11a a 1991 1275 e7e e2e 49 9 -so 7 299 240 ea o --- ---oMioPoNTias/2aos c28 , Pa a v e r d e - T s p i a 2 . w / F A c ese 24 ese 2407 723 2 e 34e saa 2 a 4e 244 2 es 757 e 7 as 2996 3427 e 2 ac t es eso 47e 250 222 ace c te a a 94 a e 4 a e 60 e o --- 9sPRINoss-otAosToN19eet194cam os up p e r t e n m o m o g r a m - L o w s i d e nascameoverwansweasse.99Aealeta.um:acaus eg. s t s i - a n s -la s e 49e o 24e o iss i ese s a v 581 2390 700 2400 450 462 a a e2 a e 2080 y a ses 32 2996 24ee e4e Bot zoo 504 as use a u g A e o l u s - A n t u n e s c o k v u n e 222 84 e se a a e a 842 757 696 74 299 6 298 7 449 1804 129 476 362 2ca 182 802 o 600 44 wyo P o 345e.saMINess-PLATTE2acessaloose345/230e298.22%1PTasNFueeso87e 215 mo r n i n T e s t w i s s i n g e r w e s t a t + s m o t 4 9 e o m w eg . s t s i - s h a . . . . l a n o 4ao s 2s2 e les s . . a v 1653 2875 785 2520 1300 759 23e se e 23 e 777 634 139 2996 2232 421 2005 se 504 347 211 230 769 W¢î ¾ ¾ $ g a W W W W E WW§#FWVadifgWWWgiëWAWERdîã¾@¾¾ 91 voi age vio l a t i o n s >su fas Level e a > to m tas Leve l e sal u d y g s e r i e s c a p s u s e s t u n e s i d e l a n d v r a n s t a < m e < t e < t i a r v a a s e s . Appendix 3-6 ---Post-transient Results For Bridger /Anticline West vs.Bonanza West courmannevt BAsecaen i97 PAvuttons o.no e asActuam som svan era smaa.e usaret n om are v A wonsTLoAINNo,e a ."comuENT a..cas.o w...se-se.Are.estaam.un oeu.ogwatglans 49ee 2doe 1579 yema ao 2707 Too 2400 <aa 47 <a ess 4e2 293 2923 van e42 lae 29ee 2590 699 2005 92 504 asa 2 e 2 a 7 ..ore-www.o.aimewoomms sol auto-mosawoomva.,sa 2925 o asas aos illo 428 740 las ao 299 1996 822 667 loo 2996 2359 ses 2006 ils sia asa 21e 347 742 e o als act MM toce 27a 722 745 759 74 asa see 220 22e 175 se 9 auxNota4 ommes emme s sari 114.66%None 29ce.esAmpseclaAntatePopeasseokvu<ae+Dropardaeret 1900 2292 e 3050 saa saa sea vos 90 70 237 209e e24 694 e5 2996 2258 529 2005 toe 4ee asa 20e 2ea 726 575 0 aea 76e aae 744 7es 014 13ee eso a2e ase 014 014 es 710 ese 974 ses 402 402 aao 227 219 iso 45 o 2 aRIDGER BRIDGEsA34e#1 103.21%No<9e less.01AmpssolgAntweePopausecokvane+Jeo1+Kapcap lese 2298 o aose see see sea 702 .se 71 2382019 e23 esa se 2eee 22eo 523 2005 10e 4ee 369 20e 2ee 725 575 e ca 820 aee sie 94e 230 1679 cet aas ai mm 7e2 aca asi cas ce2 987 62e se see 237 22e 198 e e 2 PAusAce RocKsPos23e#1 92.7e¾None aos addner aMileknola4ekvane lea4 2559 1949 1877 29a 1404 429 749 406 100 249 20ea aos ede 125 2996 247a eel 200 se 499 asa 215 240 751 e o e43 iloa e7e aos e4e 117 1657 4e ee7 aea 1997 117 7ee aos 970 112 1239 eso ese sie ala 277 21e a 2 sooRAssee e o BRoaER Roc sPos23e#1 971e%None aos adager a45/230kvTransforme taal 2705 tese 2397 43e 1470 349 ese 4ei 133 213 2122 7ee e42 13e 2eee 2508 esa 2005 92 Bos see 217 21e 713 o o 829 1537 1995 515 1578 928 24ea 594 liao e49 1928 928 549 se7 1572 e14 1678 487 aos ela ao4 280 2ae sa o None ao7 Kuipon oostena4ekvane 1579 2709 1894 2410 440 1475 347 654 465 134 21e 2924 vez e42 197 2eee 2eos 694 2005 99 504 asa 217 220 713 0 0 eaa 1559 1084 491 isea 99eMW 582 lace ale 1918 sie 637 esi lese eal 1694 eso a14 ele all 2e2 239 ea o o BRoe BRoo sA 34e#1 es None see Kapas so<aha4ekvane isel 2706 1700 2ase 437 1470 348 eaa 461 134 213 2123 7ee e42 lae 2eee amos ess 2005 92 Bos see 217 219 713 0 0 eaa 1523 1902 489 isse ses 2442 575 1909 809 1909 ses 1591 som isei e12 1671 e2e ace ese 312 283 239 ea o None all aoraha4et230kvTrardormer 1589 27ee 1692 240 4ai 1477 ano 657 467 la4 29a 2924 Tae e4a var 2996 2519 eaa 200 99 504 aar 21e 221 714 e o ea7 1640 ilos 482 1643 lasi 242e see 1994 7ee casi asi leos e2e isso eis leea e2e ela ele 312 2ea 239 ea o None s12 Pop s-cedernissockvane 1594 2e7e 1652 2408 474 13e2 350 ee7 aes 11e 201 2099 782 ea4 laa 2eee 2457 ene 2005 101 522 aes 221 224 712 e o 852 isla 1909 327 147e 1951 2850 982 1909 828 1951 951 1453 488 isas see lesa ea4 577 e2e 814 290 241 51 o o LocusT MoRA as #1 a None ele moran udpo teookvane insa 2887 leal 2397 9458 1424 349 ese 420 125 207 2999 784 ese 127 2996 24e5 ese 2005 loo sia ses 21e 224 713 0 0 aal isoa 107e ae7 1397 1807 23ei 520 107e 812 1807 607 1423 430 1520 eaa 1642 eal 807 ele 314 2ee 240 52 o Nonesi?Midpo teceta4ekv7tansformer 1584 270e lese 2410 1429 1481 349 ese 495 137 21e 2127 787 e45 los 2eee 2527 701 2005 100 49e ses 215 22e 713 0 0 aal asas lies 493 is4e lese 2400 570 1920 839 lese ese 1521 eaa ise7 ele 1678 e27 807 ese all 281 239 54 e o LocusT MoRA e #1 as None a20 Adelade Mupdat#234ekvune 1589 27ee 1700 2aea 1449 14ee a4a ess 4se saa 212 2122 van e42 las 2996 2507 699 2005 sa ses asa 217 29a via e o ese leas 1996 eaa lese 940 2472 esi 112e e43 1940 940 1627 eal 1672 ela le7e 496 eli e17 312 284 240 ea o None a21 ectab-Addade-Midpoet#134ekvane 1582 2701 1700 2394 1447 1454 34e ese 450 131 21e 219e 7ee e41 lao 2eee 2503 eaa 2005 se 507 seo 217 219 713 o o 832 1528 lose 4e4 1525 902 2432 485 ilos a2e 1902 902 1481 478 1547 eci leel eao 807 ele ala 284 240 sa o None 824 Midwat Ratuesnake230kvane 1589 27ea lese 2399 94ae 1499 34e saa 460 las 212 2923 vez 642 137 2996 2eos 692 2005 92 som asa 217 21e 713 0 0 e27 1404 1094 473 520 e2e 2443 ess 1907 e2e 1829 e2e isos ses 154e ee2 1509 e27 804 e14 394 281 239 sa o None s2e Midwat Dram2aakvane isel 2704 lese 2399 1439 14e7 348 eaa 457 133 212 2122 785 e42 137 2eee 2506 691 2005 92 Bos see 217 219 713 0 0 828 1404 lose 49e ses 894 2445 579 1992 834 last 894 1529 543 isel sea 1500 e27 804 e14 314 281 239 ea o None a2e Heminawaveco/230kvTrardermer 1589 27ee lesa 2400 9437 9479 a4a ess 4ea saa 29a 212a vae e42 las 2996 2509 694 2005 92 504 asa 217 220 via e o e27 1404 10ee 498 eeo saa 2437 676 1992 ese 1903 903 1633 649 1662 ee4 1601 ez7 804 e4 314 281 239 ea o o LocusT MoRA 44 None sao Pop s-sotah#1345kvtae 157e 2707 170e 2395 1448 idet 348 eaa 455 laa 213 2122 784 e41 134 2eee 2503 ese 2005 94 507 ses 217 219 713 o o aas 1415 1995 Saa see sa7 2483 eoa 1932 84e 1987 987 isse 578 ise4 574 1514 e2e a es als 282 240 sa o None BRoaER 34et23e#2 10063%saanAeone Antencescokvtme 221e 1254 775 1971 845 eaa 2e7 602 ee 43 278 teos ato 73e ao 2eee 2237 509 2005 112 475 aos 207 laa 791 a 600 4eo 979 439 es saa 2780 996 453 079 o 20e 220 523 397 208 528 ase 209 74 2ca 2e wvoPo 845 es e MINERs 2ao.oPLATTE 2aco 10295¾None saa Aeolus monesconvune gig ga mmgËì ggeaeaAeolusMonasconvuneo357920892ea722eo1273422734240toe2aa1996999782tes2996253977e2005a33528517e254736o600903439e71752e431201645sotsosie470753800e4eese434eso4459737ot282234isa4710aoNANzA345e2osPRINGERGLAosToN 915#1 9937%Nonesa?Aeolussoot23ekvTransforme 15ee 2eee less 2ase 143e 1461 349 ese 452 125 214 2100 791 e4e 13e 2eee 2507 eso 2005 si 503 see 21e 21e 712 0 0 719 see cio 44e 1597 874 2412 544 ces aa4 ale 325 484 see 545 See ee4 e17 e7e saa 302 272 236 62 e 2 AeoLus sect23e#2 102.38¾None specTransformersaboutie 840 sonanza Monaa4ekvune 1729 27av 1799 24ae 1675 laaa ae4 70s a27 so 22a 2a19 iso 17e las 2996 24ae e22 2005 sa 42a air 192 2ao 771 e e 406 244 ese leia 329 laco 107e eli e17 ese 902 see oos 214 384 ele saa ase 344 2eo 217 192 2e 12 MooNLA ee 7 a soNANZA vERNAL lae#1 134.60%Nonea4casonaceaMonaa4ekvane+RAsT<pso 1794 2ees 1677 2422 1790 121e 374 ea2 213 140 2312253 toe 4ee 134 2eee 2423 ese 2005 se 411 314 too 222 715 e o 578 372 a 1812 eea 2977 lae4 eel 738 7e 1945 2ee 29e 4aa 527 slo 445 See 4e4 2ae 24 218 4e o o SPRINGER GLAosToN115#1 sees NoneasiHemineway-summestakesootvine lese 2ee2 leal 2as2 1477 1998 349 ces 371 12a 204 21ee 762 es4 164 2996 2464 e4e 2006 as $2a ses 229 211 Tis e o a 2 2 es e es a e e o o o None Necrama,>500 eœ 500 eœ ico 2o 2o coaerage sMeKnou+arager Popues 345kv es 1782 23ee 2257 1245 997 2ea 504 a21 als 52 2521979 ea7 esa ita 2eee 2432 e2e 2005 too 492 375 212 234 807 o o sa2 sei see MM see MM 528 aca 24 228 354 889 co MMM -292 e4 94 sooRAsses os 4 sRicoER ocKePos2ao#1 120ca¾5 PTReNFUResaael sopuvoitagevoution coacerdge MK+arage.Pop#1345+RAs,2deo+Patmecaps+uvtoad issa 2729 1944 94 cae e57 494 724 -99 147 289 2997 eso 700 so 2996 2273 see 2005 79 497 323 les 175 745 lino o 22e 295 eaa 07e sea 4e 921 224 e72 574 487 001 4e asa 370 459 es 57e .47e 290 24e 215 se o o PAusADE ocKsPes23e#1 94 4%None w/Piecapsatoadoropcc4sadoaMileKnoa+sreg«-Poulus#234ekvano 17a22aes22571245 99712ea504e21313 52 2521979837 eaa 113 2eee2432 e2e 2005 100 492 375 212 234 807 0 0 332 602 294 372 13 aci 24e 2283-9 ele e2e 702 im asi -314 294 2e4 les a i sooRAsses e 4 sRIDoeR ocKsPos23e#1 120ca¾e TRsNFUResosei.sepuvoitagevioation co4caridnerauK+arkinePop#234e+RAs,2Jeo+Paniacape+uvtod leaa 2729 1944 su saae as7 494 724 -se 147 289 2997 aac 700 so 2996 227a see 2005 79 497 a2a saa 175 745 1950 0 eso 2ee saa 107e 1962 4e 1922 224 e72 674 487 loco 1934 4e 12ea 370 4ee ese 67e 47e 290 24e 21e se o o PAusADE RocxsPos23o 94 None oKwtPiacapsaccadormcesactab-Pop sa45kvoto 157e 2705 171e 2382 14ea 1438 348 eaa 439 12e 214 2117 7ea ese 127 2eee 2492 e7e 2005 se 512 asa 21e 220 714 e o e41 534 117 isoa isee ass 2484 587 127 ado ese 1370 149e 527 lese eos e72 eaa 817 e20 814 288 215 52 o None coeaPopos-ee<9tomo<9da4ekvoto+avpass1/2ofaMKseriescap 9740 252e less 2959 9037 ises 424 735 554 13e 214 2101 e2a 670 164|2ees 2595 77e 2005 se 454 359 |204 207 746 o o 713 osa 925 1937 19ee 522 200e 277 ca esa esi 1014 1907 14e 925 osa 197 se7 ese see aos 2e5 217 ea o o PAusAo oc sPes 230 No<9eco7sentomond-Terminala4ekvoLo isee 2eee lese 2397 142e 147e 34e eaa 4ee 134 212 2122 7ea e4a 137 2eee asia ese 2005 so 502 see 21e 21e 713 0 0 828 4ec 1097 1459 1592 1867 2403 545 ces a2e 821 1313 14ee 493 ae2 See sea e27 804 e14 312 283 239 ea o None cio Popa s aosah#134ekv+Treasurmon aradv230kvanes isso 270s 9700 2as4 14aa 1465 352 ese 4se saa 29a 2122 van e42 las 2996 250 699 2005 sa ses asa 217 219 714 e o ese cas -481 leie 167e 191e 24ee 694 34 e47 eaa 1377 laae sea eso ela e7e eso ela ele 312 2ea 213 ea o NonecilPopuessentomondr2+PopuesTermoda4ekvanes tese 2593 tela 2313 1979 ises sea est saa 142 20e 2995 a12 eea 15e 2eee 257e 757 2005 es 4e7 ael 207 215 731 0 o 7e7 242 leie 1279 1883 1682 221e 402 coe 7ea 7ee 1952 1257 aci leo 21e asi 599 750 See aio 273 2ao sa o o PAusAo oc BPos2ao None c14 aoran Addaue*2+Midpo Addaue*234ekvanestRA)1582 2700 1700 2aea 1447 9453 34e saa 449 131 290 2999 vez e49 iso 2996 2502 eaa 2005 se see sec 217 220 713 0 0 832 523 loseMW isas 1901 2430 se2 los e27 824 1315 14e2 47e 544 602 ee2 eso aos ele ala 284 240 sa o Nonecisso<an Addame#2+so<ah Hunt2aakvenes 1583 2eee 1701 2390 1454 1442 348 eaa 440 12e 20e 2117 785 e4e 127 2eee 2497 e7e 2005 se see asi 21e 221 713 0 0 aal 597 1093 1450 1590 1837 23ee 547 ces 820 als 1299 14e7 4ee saa ses ee4 eaa 807 ese ala 2ee iso 52 o None cis sorah-xinpona4ekv+aorah Hunt230kvisestRAy,1582 27ea 1701 2as 1442 14e2 a4a ess 454 la2 211 2129 van e49 la4 2996 250e saa 200 94 ses 389 217 220 via e o asi 627 097 1472 1641 isso 2420 16ea 101 792 807 123e 14ee 524 642 eoe ee7 e2e saa ele 312 284 239 ea o Nonec2eactahadeMidpoet#1+Map t-Adebide#2345kvenes 1583 2ees 1701 2390 1452 1445 348 eaa 444 12e 20e 2117 7ee e40 12e 2eee 2500 eat 2005 97 see ael 21e 21e 713 o o aal sie 087 1421 1482 1928 2439 154e 087 804 ace 1252 1415 382 524 587 esi eao 807 ele ala 285 240 sa o None ca4 eridger Popues#1+ooshe<Kuipona45kvu<9es 1648 2810 1918 2011 see 1492 asa voa 499 194 213 2089 aos ess 12e 2996 24ea eya 2005 95 ses 365 21e 222 738 o o 73e aos e2e 1962 1240 1584 21ot lace 711 257 aas live 121e 222 ale 421 492 elo 719 see als 285 59 o o aRoeER BRooEsA 345#1 9882%No<9ec24asadgerPoues#1+ooshen Kapa134ekvaneswtRAs isso 27ee 1782 1797 287 1944 367 ee4 162 iso 235 2181 aos e74 114 2eee ases eso 2005 ea 45e 354 204 195 720 575 0 7ea Sei 924 142e isao 1863 2402 1545 824 aio 4e2 1389 1527 522 sea ea4 714 eci 732 674 aco 2e4 233 ee o o sRIDoeR BRoosaA 34e#1 seco¾None c2a:Paoverde Triplaa wtFAc less 2704 lese 2aea e2 2ea see ces 2ea er 234 2965 769 est 40 2996 3459 1956 2005 es eaa 4ea ass 220 Fri o o WW 949 1327 1400 17ea 224e 1462 980 781 Mbi21e 13e aal aac 2e ese see ese 262 120 m o voRKcA 4 sPRINGER etAosToN lie 12 ee%None5--WHi-St-1Mimrm is -URMWi&&m ME -1 -R -IE i-WWW eenen.4w.aseysoeuw n.c...o..no.saru...se se.can e ac asu.,,2eee 700 2400 e72 e ee4 e7e 34 es 995 ese 540 a 2eee 240e ese ao4 504 423 230 2 7 e7e saacAeolas-Amminescokvane 2 MNERs 2acoPLxrTE 230c#1 see7 NonesRicoER845/2ao#2 9579 e won nymouw e..caseoverendecareasse.sesAron es.ene osue.y..47e 500 2400 492 250 e4 7ee 7ee e44 44 2eee 2559 7ae 2005 as so es 20e 2 e e4e easgAeous A<a sookvane owNERs 230.oPLArrE 230.o#1 87.36%NonePLxrTE-LxrHAM 23e#1 86.73¾ n'envat.orownias.ssorasseuw.y..99-na ces 292c 94.,2835 1785 2520 23 191e 20e slo 911 lae se 2192 754 e11 127 2eee 20eo 275 2005 107 504 ses 21e 231 733 ocomingen wratesmAsicomwegediesena.go..meae comunq¢n rynymt.nea.nramassa.saerrasmez.99ewa os2 race se er.92 2127 94a2 2470 94aa ia45 219 520 a2e sao 224 ivaa a24 ees isa 2996 2540 720 2005 ya 504 ass 203 224 ese oceannym t.trasmissicenwnydindi<esingr.emeneammm.«gi. 1)vo agevmatos>s%fosteveisa>1emixteveic 2)Ex adingseriescapausestuneswe)andiransformertenarpuses.Aca Appendix 3-7 ---Post-transient Results For Bridger /Anticline West vs.Path 18 coNTlNoENevt sAsecAsetPTPATMFLows |nor REAcrivesAnoiNavAnorayanadadessaarettaminimummar¢ns) VTE wansvuonosso '"'comusur 604 7ec24co-907a1996 97 4ea see o aa7 1974 era 524 1072246 2450 eaa 1804 12e 504 494 22e 254 ea4 o o na..c...o-a ar...se se.ar..e.osu. I tocusi me ne a uen. cTTNwoN KETTLEcx cae4% a reenung.sca..outusoencvtomossae o assa -e2e 1557 284 ses ses 65 aae 1772 722 see vi 22a2 2287 496 1804 ins sie 496 22e aso via o o 2 PTRsNFLT2soness ox Abovee7uvtsRemy o 2799 -sea lasi21e sie 132 a asa 1987 Tae e25 40 2207 29ca 499 1804 139 42e saa 204 292 698 575 0 eaa asemm ces coe cae oaa 7e se saa ee4 se 970 ao ses eos eso ea7 500 2e2 25e 227 e7 4 PTRsNFRoes e PTRsNFLT230aael Belowe7p UvtsTriptoadsnotaatonnewomovenvo3062-see 131e 250 esa 367 24 34e taal 729 590 se 2221 2197 4eo 1804 142 472 387 215 331 703 575 0 682 317 See 922 se saa 507 476 778 87 e7e 2 461 Sie e77 723 eso 291 277 22e ea o ,2 PTRsNFLT2aceaal oK Abovea7uvtsRetav |804 arideer 3Maehnoi34ekvune 19792450yeaalaae449 18292a2 587 aas 97 a49 192a 70s saa 94 224a 2409 aco 1804 lal 499 409 224 279 72a e o ela 31e 722Em MWWW WWW g 4ee 71e ela saa aal 314 23e se as slooRAsses as o EHELENAestico#2 98.72%a slooRAssielease|ao4ce<idger-auleknolia45kv+Kaponehantcap+oisone os 157324ea194cissi -se2 18402eo 584 e4e 97 348 1925 703 532 se 2244 2413 eaa 1804 131 500 409 224 275 724 e o eso 450 857 782 74 783 802 827 aas sea 755 02 loa2 882 eo 720 887 eë7 asa ala 242 ee e slooRAsses e EHELENAestico*2 100.12¾e PTRsNFLT2aega74 oK Abovea7UvtsReev see avlek<9oil-coshe<9345kvu<9e 14ea25es17ea2250 10481679292 593 are o a49 195e 685 525 1012245 24ao e17 1804 iso ses 494 22e 259 792 0 0 cae 70e sea 219 112e lose e4 11e 1929 4ee 739 973 1241 las leis 712 e4e 73e 979 70e 332 326 255 es e GRAcE soDAlassi 111.60%a PTRsNFLT230eese oK Abovee7uvtsRevsceaaMaeknol-coshena4ekvane+sypasaMKcaps 1517asasiaas2ea2 9921877230 532 877 es 3421949 ees e2e loca2de 2427 e17 1804 130 ses 413 aas asa 705 0 0 978 1662 082 197 1040 1004 23 049 1042 454 489 884 1925 02e 1418 ee2 797 734 see ese saa 324 253 e7 e EHeteNAestioc#2 101.50¾a olttoNeeso.aae NooKperuPcsta |aos Kaapon aosaha4ekvtae 14742802 9709 2asy ava 1992 197 4ea ses To aae 1974|avs 524 107 2246 244a eas 1804 12e 505 494 22e 254 ea4 e o 1043 1787 221 407 laea 1246 34e 1302 1970 717 7ee 1982 1442 392 lees 1820 1923 742 1012 723 a2e saa 2ee es a None |aos Populo soransookvane 1495 2570 1612 2448 ose 1882 202 504 ese 7e aae 1963 eso 525 97 224e 2434 e21 1804 132 507 415 22e 2ee ea4 e o 1045 1755 187 29e 11ee 1941 2e4 1245 1934 713 77e 1992 1376 298 1628 1782 laae 740 lose 725 328 322 254 ee o o sRooER BRooEaA 345 #1 8592 None e12 Populus cadaralisookvane 14ee 25ee 1649 24ca 19e 1890 les soo 795 92 329 1942 674 595 lio 2242 2aas 579 1804 137 52e 427 2ao 265 ea2 0 0 ices 97e7 225 300 1341 120s aae .eae 1982 749 812 1233 1405 aes isso 17ee lees 74e 1039 737 aal 327 257 ee o o LocusT MoRA laa si 9340%None s14 cedarH Hemaguayeconvu e 1492 25521635 240s 114 laae 200 501 792 sa 32e 1941 e74 515 los 2242 2381 577 1804 las 52e 427 230 2e7 eaa o o loca 1741 17e 241 1273 114e 19e4 -ees 1934 727 784 1979 1339 299 1607 17ee lees 745 1024 72e saa 327 257 ee o o LocusT MoRA laa#1 937e¾None |a17 Midponteoota4ekvTransformer 147a2eo416852414 oss1927 ise 500 946 as aas 1989 eel 529 Ta 224a 2470 e4e 1804 las 498 490 224 265 eas e o 1037 1781 210 137e 1327 1223 lace 1272 1969 732 7ee 121e 140e aoe 1661 leia 1920 73e 1007 720 327 aal 2ee es o Locusv MoRA las 10064%None ovedoaded asecase|sia Midpota45/2ackvT<ansto<mer 14732eo19eea23ee 0741992 197 498 900 71 aa7 1973 e7e 524 1912247 244e eat 1804 12e see 414 22e 255 ea4 e o 1048 1788 227 1404 1348 1221 1297 1278 liso 752 als 1260 1448 asa 1873 1828 1924 742 icia 723 328 323 25e se o MioPoNr230ta45*2 123e7 None idahoP<oble NaPathis a21 aorah Adeelde-Midpoi<ns134ekvu 147525es17eo2ael loayleel 197 4ea 699 74 aas 1968 e7e 522 se 224e 2439 e2a 1804 132 see 49e 227 255 eas o o 1042 177e 213 1382 1340 117e 12ee 1273 1964 741 aoa 122e 1493 1354 lesi lace isoa 742 1011 722 329 324 25e es a None 822 scrah Hunt2aakvane 1474259917012395 10811903 197 498 897 72 aae 1972 e7e saa 104 224e 2443 e2e 1804 12e 507 415 22e 2ee ea4 0 0 1042 1784 1224 1399 1339 1987 12ee 1271 1977 750 ala 1253 1442 1378 lees 1818 isla 742 1012 722 328 324 25e es e o MioPowriaat2ac#1 se4o None e2a uudpo t-emesenenea2aakvane 1474259916982397 1077 isee 197 4ea oss 72 aae 1971 eye $24 111 2247 2440 e27 1804 12e so?415 22e 26e ee4 e o 1042 1784 1220 laan lair live 1294 12as liva 748 499 1247 14aa lame lees 1897 isla 742 lo19 722 a2e 32a 25s a o o LocusT-monA laael ico.es Noe oveoadonneasee e |624 Midpa t-Ramesnake2acevane 1474259e16982397 love isoa 197 498 aso va aae 1979 era 52a 192 2247 2437 e25 1804 12e ses 49e 22e 259 ear o o to4a 1785 1223 taso ta21 1975 1999 12a2 1977 750 49a 1250 14ae tas2 tees taia 1919 742 tota 723 a2a a24 258 as e o miopoisr taa/2aosi a7es None |a2e Mapo t-Dram230kvune 14742809 lesa2ase 1075 1999 197 4ea 902 79 aa7 197a era 524 los 224e 2445 eal 1804 12e ses 494 22e 258 ea4 e o 1042 17ee 1225 laae laas 120e 1279 12ea 117e 751 814 1267 1446 137e 1671 1821 1922 742 1012 722 32e saa 2ee es e o Locusv MoRA lae#1 9842 None sae Aedus-Freezeout2ackvane 14512eaalea724e 07e199520e 507 907 es ese eet 521 tes224e 2450 ese 1804 12e 504 4a 225 25e es e o ao 382 2e ae4 53 802 254 448 397 e7e saa 94e 252 es e o MNERs rrE 230 None |a41 Hemi<way sammertakesconv 947a 2ss1 9eas 2asy cas issa taa 499 875 74 967 677 522 19a 224a 2429 696 9804 12a 599 4 a 227 252 eas e o 7e oa7 eso 804 704 7es 07e 240 ces sa 7e ese 742 see 25e es a None ce26eadger-Pop 234ekvues As 150127011927108 7071253235 saa aos 592095 737 604 es 2215 299 504 1804 2 347 20 200 717 1150 0 822 e7e sea e oc oss 2e 079 ela ese es 049 94 847 ese aos e21 312 2ee 244 72 e scoRAsses e EHeteNAestioc ce TRsNFLT230eaes eeowa7puuvtsingtoads coa seer-auK+armePop#134ekviines seas22a222521244 694 tral ae4 era 759 4e ano 1849 Taa 542 a2 2239 2aae sea 1804 la7 495 404 222 279 vaa mm 473 87 ae7 279 278 324 aos a17 423 leo 147 22e 272 e2 417 ese 974 eea eco 4ee aa2 300 201 ei e AMPs es se o LocusT MoRA las sees%e PTRsNFLT230aa4e selow.«7pa uvtsTrptoadscosaadgetaMK+eragepop#1345kv+o<opJeo le1224es21071105 ele 14ea als e23 527 e 352 1967 740 574 ee 2227 2279 532 1804 125 452 375 211 23e 753 575 a e75 e e12 See se eso e45 552 e 245 235 00 es e5 732 021 asi e7e eaa ese 324 299 228 e7 1 PTRsNFRoes too o PTRsNFLT AMPs 230 9872¾9 PTRsNFLT230eaa4 eelow.87pu uvtsT<ptoads I co4 e MK+e Pop 234ekv os 689226222521244 e4 r e4 e79 7 4e ano 164 Taa 542 e2 223e 2ace saa 1804 137 495 404 222 27 783 47 e7 279 7e 324 40 50 47 2e 72 e2 4 7 see 974 ee2 soo 4ee 332 300 2e e o AMPs es se o LocusT MoRA las sees%e PTRsNFLT230ae49 eeowe7p vtsTetoade coa Popuus Kapon+Popaus scrah#234ekva 465280717012404 04 1864 197 498 887 7 40 97 e75 52 se 224e 2431 e17 1804 133 51 4 e 227 2ee ese o o ce2 ao 20e e2 24 42 272 45 eaa 418 20 ese a2e 940 02 727 328 323 25e es e s Doe s Doe A 345 None cio Populus scrah#134ekv+Treasureton aradv230kv 4792eca17062as4 0841902997 4ea ase 72 aar 97a 677 52a 1042246 244a e2a 1804 12e 507 45 22e 255 eas e o 04e 7e 23e 419 aae 21e a 29 93 7e 2e7 4ei 347 ee4 az7 930 74 017 726 32e saa 2ee es a None |cis scrah Ade de#2+sorah Hat23ekvlames 476 2590 17012386 098 1876 197 498 878 77 asa ises e77 521 94 2245 2430 e14 1804 lae 512 418 227 ase ea4 0 0 eaa 7e se saa 277 075 20e so 734 795 207 387 322 ea4 793 ase 74 coa 72 329 324 25e es e o MDPo e/23c sese None cas sorah-xinpona4ekv+aorah Hunt230kviinestRAn 14742ssa 17ea2asi leal 1900 197 4ea aos 72 aas 1979 era 52a saa 2246 2442 e27 9804 12e 507 415 22e 258 ea4 e o 1040 1780 1210 lasi 1321 17e 1270 12ee lies 710 7ee 1961 149e see 1662 lace 1992 742 1010 722 32e saa 2ee es e o uloPour iaat23e#1 ee41%None c2e ao<ah-Adelaidpoint#1+Midpost-Adelader284ekvises 147e2Bas17ea23a2 iloa tees 197 498 e7e 7e saa 1963 e77 520 si 2245 2431 ela 1804 137 ela 419 227 253 684 e o 1044 17e5 120e 1867 134e 13e 12ea 127e 1957 780 795 1995 1379 aos 1630 1795 case 748 1014 724 329 326 25e se o o MioPoNilaat2ao#1 7eio¾None c21 aorah-Ade-usepointata4ekv.sorassunt2aakvenes<sA)147e2eso17o22se4 loss ista 197 498 87e 7e saa 1964 e77 521 sa 224e 2429 eis 1804 iss e12 418 227 2es ese o o io4e 1762 1209 lass 1298 os4 1993 122e 1952 Taa 795 1204 laae 132a lesa 1793 1896 749 lolo 722 329 325 258 sa o o miosoisrias/2aces savan Noe |c2a aorah-Adele2345kv+aoran-Mapuntsookvunes 94aT2562 9679 2aaa 1925 9899 199 soo ala so 327 1946 675 sie 89 2249 2ass 577 1804 148 524 426 2ao 27a saa e o 1040 1727 1958 1247 lies saa 1020 1994 1904 707 7e2 1929 12ee 1229 1579 1745 1859 744 1099 722 aso saa 258 as e o PTRsNFLT-AMPs 2aces esolm None|ca4 eridger-Populue#1+ooshe<o-Ki<pona4ekvanes 154424eales21ea4 935 1847246 549 e4e e sao less asa 52e se 2243 242e e12 1804 130 ses 499 225 255 792 0 0 937 leos 923 1080 10ee 1037 1961 10e4 794 221 341 see 1993 ocel 1355 leis 1754 72e 997 eso 334 326 250 ee o o BRIDGER BRIDGEsA345mi 9459%None n.v.ming.rw.mm.ssorassenw.y.cy was.4acsisic so m-17ee2620 seo 220e ise 49e 1207 se aa7 207e 704 esi 97 22ee 2337 623 1804 137 see 436 234 271 766 MMM-A mgmW-m¾¾¾iWgiltWWWWWWWSMgi n.v.mentemsserwww.gw.tyim;wwie.49ee zone 14;s an....1700 2400 lose 1942 ise 49e aae 62 354 1977 e7e 524 10e 2231 24e4 e4e 1804 127 sor 410 224 268 ese MMM-A mgmWW-m¾¾¾idgiltWWWWWWWSMgi 9)vonsev atos>s%fosteveisa>1emixteveic Appendix 3-8 Pg.1 ---Post-transient Results For Bridger /Anticline West vs.Monument -Naughton cow.m..cy a aca.e ,or am ons i no name venano.uvan 4.........--. woma wons,umomo y cohLul ..ie 4.9 -..sm..4eo 2642 voo 2 oo 2 946 a es2 520 944 as 2ese ca ese 945 12e noe 47e 259 222 er ce a vene 477 e2p us e onoNs e ese one e cae ve c ...es se GLENc ota4 nvetagevidato<e>s%fortevdaa>10%fortevec Appendix 3-8 Pg.2 ---Post-transient Results For Bridger /Anticline West vs.Monument -Naughton ecAs c a se a y Patur |a no neac remanom avan er.un.c.a....t um wonsTLoAoiNo '"*co-ENT esweisa-su a22eso 400 oso sea 47 640 699 as a4a 534 are 2a 2996 2394 576 or 4as 2a4 2a 672 wumvlio ovecTTNwoNroc047 cmena,tilskalikštil falMmilmatibil-IIRS-Witimielk 1559 Min 5-Mammillif¾iil tilm-lin---99115 4-iftfatW 2 m...ansprw..smesserseeuw a .y em exsna ner as 49 es 2844 1785 2520 -7ae 22ee 332 491 12ee 12e 27 2031 See ase e4 2eee 2509 ee2 1744 14e 504 522 252 243 718 Ancenung arennoianssconopea nogneau..n.u,.u49pn e .p..t,949,s.....aeriaanoaaraissousseen...4eo2e7a 1571 2400 -loal 1724 499 ese 725 128 las 1884 saa aas 12a 2996 2881 ee4 2118 112 504 4ae 284 218 e79 Ance.eng asienn.imaascom..p.a me.isage..nsw.m..cow.m.npa vetagevdauens>e%fortevdaa>10%forteveic Appendix 3-9 Pg.1 ---Post-transient Results For Bridger /Anticline West vs.Rock Springs -Firehole West a sEcAsE PTPATMFLows nor a cT EMAnansvAa orayshad casamth m røns woRsTLoAmNo .4 a a co-ENTluu semes.w 4 x 2.cc 2eae -«e2 ces 4eam e a e ...c...ar...se essa..e so ,...-..e 2ca4 e as7e 573 94a4 la2 579 ese ze las 1623 ses 375 7e 2996 2437 e4e 1844 ise 520 4as 252 a4a ee4 e o 794 441 M¾i MM se Mt sea a20 eea eaa 2a4 2ee 221 ee 1 an o 345actaAnceseopumassavaneusopemnermwe2211e3037553124e147542320ee204172e574410se2eee2345eaa184414447545e2432916765750as7ea71727is?452 1967 260 mes 49 See se oss 04 17ea 1887 e 484 as 275 2n 223 70 a sea erimer Populusa45kvu<w isso 2536 1963 2023 se 97a2 949 as;ene 107 179 1794 537 347 too 2ees 2670 7e2 9644 132 50e 47e 259 224 ees o o 107 2006 ise 453 49e 794 2332 sie 044 737 727 2eo 4ee 47e 7ee 2037 214e es2 1084 733 323 322 244 73 e o amoeER BRooEsA345#1 sees None804aridger-sulekotia4skveine ises 247e 1938 1874 604 1773 leo 577 800 92 211 1771 545 asi se 2eee 2555 74e 1844 134 504 477 251 242 703 0 e ca2 issa 972 073 082 asi 1888 197 sic 412 372 822 ca2 017 dec 1787 isee 844 1017 70e 323 317 2ae 73 e o oAvEJoHN LAR.RivR23e#1 7883 None scea aMaeknoil-coshona4ekvune+sypasaMxcapa 1527 265 la27 2ea4 seo 1899 12e 52a aa4 los 197 laos saa a44 109 2eee 257a 7e2 la44 las ses 4ao 252 29a 684 e e 4 2040 12e4 eaa eli aci 23ae e42 1997 eee oli 1210 492 4e4 811 20eo 2170 ese 1995 746 322 322 247 74 a o GRAcE sooA 13841 7703%None 807 Klapo<t-ooshena4ekvune 1481 2e4e less 240s 1030 la4e 95 4ee sea 127 181 1832 519 344 107 2eee 25ee 781 1844 12e see 4eo 252 222 ese o o e 2945 iseo 715 728 2014 2650 ese 1180 km 519 isis 727 702 992 2209 228 e2 lies 764 ale ala 249 75 e o afoooER anooEaAa4ex1 8754¾None ele eorahsoota45kvTra<asformer 14ee 2eas less 2492 109e lese se 490 ees 12e too laa2 520 345 107 2ees 25ee 7e4 1844 127 ses 479 259 222 ese o o e4 aise 1392 738 607 997 2522 lese 1321 e41 ees 1429 705 e2e sea aise 22es eel 11e4 762 31e sie 24e 75 o No<aesiisoraha45/2ackvTransformer 1484 2ear 1692 2404 1023 1848 ea 492 ees 127 laa leal sie 345 107 2eee 25ee 7a2 1844 12e see 479 252 223 ee7 0 0 97 2138 1384 70s 717 984 2524 1681 1319 814 e4e 141e 712 700 979 2197 2273 ee2 1167 7e4 317 sia 248 75 o None als Midpoint Hemingwaveookvtano 14aa 2e24 les2 2aaa icae sai se 490 a27 122 17a 1822 sia a42 111 2eee 27a 7ea 1844 12e 512 4aa 253 221 687 e o 7e 2101 1314 eea 477 aae 2301 le4e 123e 797 ale 1312 1642 14ee isoa 2137 2232 aea 1949 7ee 317 319 24a 7e o o Noneeleeorah-udpoetsookvune 1493 2e12 1e7e 2395 toes 1779 97 490 aco 195 tes 1814 517 aas se 2eee 25e2 750 1844 lae sia 4ee 254 230 ee7 0 0 99 2095 lado 572 44e 822 2aa7 leia 12ea 20 487 laea issa 1572 1932 2944 2229 mea 11e2 762 als $29 249 74 e o MeroiNTiae/2ao None ele aorah-Adesdex234ekvune 1485 2830 1700 2392 1040 1820 95 4ee e42 124 174 1828 59e 342 es 2ees 2685 ni 1944 laa 590 482 262 223 687 o o 92 2122 1373 ese ese sea 24ee see lace e42 ese 1434 lese 1657 1973 2979 2255 .sea 11e2 7ei 317 319 249 75 o None s2e Addaue-Midpoet#234skvane 1483 2eas 1701 2397 1034 1834 95 4ee sea 12e 17e 182e sie 343 104 2eee 25ea ne 1844 130 eaa 481 252 220 ese o o se 2135 issa 723 739 2020 2543 ese ia2e ass 872 14ei 1724 1690 1994 2198 22es -ee2 iles 7ea 317 sie 249 75 o None 823 Midpoint adsesenotina230kvune 94a4 2ea4 lese 2as?1032 laaa se 489 a47 125 17e ia2a 599 a4a ice 2eee 25ea no 1844 12a ses 4al 252 22a ese o o 94 2132 laae 707 707 1957 2494 e77 1320 asa aes 457 717 1692 1990 2194 22eel-aea 11e4 7ea a17 319 249 7e o o LocusT MoRA 8797 None e24 Midpost-Ranesnake2ackvune 14ea 2eae lese 2399 1030 laae 95 4ee saa 12e 177 1830 519 344 toe 2eee 25ea 778 1844 12e aca 4eo 252 221 ese o o 94 2934 laas ese e7e isse 2528 ee4 1997 50 me7 440 est leel 19ee 2995 22ealae2 11e4 762 317 sie 249 75 o None e27 oram-easeee<a23ekvane saa 2ea7 700 2400 02e 1849 95 4ee ese 27 977 leal sie 344 07 2ees 25ee Tao less 12e 507 4eo 262 221 ese o o es 2137 94 742 2006 254 ese e eso e7 4e 747 72e 2002 2271 eea e4 7e2 249 75 o None saa populus-sentomond#aa4ekvune aa4 Populus-Termaala4ekvtans sas Aeaus-Aouegoesookvana Tcase oivanaan essa Aedas Antkenesockvu<w 8359 Aedas Anscanesockvanemonssoo vcaaE oiveno Aeous-F zeauta2sokvane Nowyavonagesesowsopu adea ao<maza monaa45kvane+RAsTrÞeonanzamant e41 Hemingway-summertakescokv asasicaveuon-oncaty2acavune as2 spence-Mustang2acevune as sades ven2Bokvtne ..=.«70e229 225e 235 579 ea2 2eo ee 721 53 221lese 577 357 em 2eee 251e 72 1844 140 503 475 249 231 750 0 0 Tea 52 Ta a2M MM 344¾¾4 732 792 as ale es o popuLussoo e o olttoNsielles saae Noe coacerimer MK+erleePop1345+RAs2deo+Pathiacape+uvtoad1549 2eee leda 945 619 124e les sea ale 14e 2ae 1994 584 429 e2 2996 2aso es4 1844 117 422 427 2a4 les eso 1950 o 494 Da ese 4ee 52a 231e sae esa 634 524 22e 525 74e 204 e23 977 ese aos aci 235 77 o o otENcANY230/345#1 ee23 Noneco4stimeranaeKnoi+st er-Populus#234skvises 170e2291225e 1235 579 tea2 2eo eel 721 53 221lese 577 357 as 2eee 251e 712 1844 140 eaa 475 249 231 750 o o Sim e27 Rí 1464%¾587 344 317 e218tw 043 -8218¾e12 asi are 21e es o PoPULussoo e o olttoNeielles#1 saae None co4carieer-aMK+arieePop#2345+RAs,2deo+Pathiacapa+uvtoad1549 2ees1946 945 699 124e lee 562 ate 14e 2ae 914 ses 429 e2 2996 2aso e54 1844 197 422 427 234 tes eso 1950 o ee4 ces 4ea 523 231e ese sea ea4 -e24 22e e2e 74a 2204 a2a e77 ese aos aci 236 77 o o otENcANY230ta4e#1 ee None coa populus-senton da45kvoLo aa 2599 ela 2a2 776 928 as saa 924 as va a2a 549 se7 2e 2996 2654 897 es 47a 469 245 29 679 o o 50 ese 292 4ee 47e vea 2ale 293 var 494 24 se 485 ese 2ces 123 747 24 ve o o souRo souRoPs2acal es NonecosaPopuluseenoaa45skvo+avpastaotaMKseriescap 5 729 e e a 4el ano o o ao e4e 2191 7 e 450 a 2(ose o souRD souRDPs23e#1 ea cio Populus aorah#134ekv+Treasureton aradv230kvanes 1489 2ear 1705 2aea lear 1829 97 490 849 125 17e 162e sie asa 104 2996 2ees Tra less las ses 4el 252 222 ese o o se 213e 397 1733 732 1989 2eie es aas ae7 872 47e 7ae 700 973 219e 2274 eea ea 7e4 37 as 249 7e o o Nonecilpopulus-sentomonde2+PopuloTermala4ekvunes isse 2655 1641 2338 849 1903 120 ele ses laa 174 1823 542 see 120 aese 2eae e21 1844 111 4ea 4ee 247 220 era o o se 1988 284 1472 482 177e 2324 52 205 782 aos 250 412 440 700 1887 2107 4e 2e 749 37 34 244 75 e o souRo scuRoes2aoxi 8429 None c14 eorah.-Adeelde#2+Midpoi<n Adeelde#234ekvenesawi 14as 2eae 1700 2399 1042 lata se 4ae a4e 123 174 1825 sia a42 se 2996 2984 779 1844 la4 599 4aa 252 222 687 o o 92 2122 373 leal ese 1973 2492 eea aos aae 857 421 e75 ea4 ses 2977 2255 se2 e2 7e2 317 320 249 75 e o Nonecissorah-Adebide#2+sorah-Hunt2ackvlees 14ee 2e27 1701 2387 1049 laos 95 4ee a2e 121 171 1823 ela 341 95 2eee 2579 7e4 1844 lae ela 4ea 253 224 ee7 o o 90 2114 364 1ee4 e79 1929 2434 esi 294 832 asi 4ca ese e21 958 21e7 2247 ees eo 7ei als 320 249 75 e o MioPolNT 138/230 #1 7959 None cis sorah-xinpona4ekv+aoran-Hunt2ackviinestaAn 14e4 2eaa 1702 2aea icas 1828 95 4ae saa 125 175 1828 599 asa 104 2996 2ees Tra less las ses 4el 262 222 ese o o 92 2127 374 ee7 714 1974 2490 e74 300 aos a42 323 ese ese 974 21aa 22eo sea e2 7ei 317 319 249 7e o o mioPoiNTiae/2ao#1 7e4e None c2e eorah Asialdpointe1+Midpost-Adelade#2a4ekvises 14ee 2e2e 1702 2385 1051 1801 es 4ee aal 120 171 1821 517 340 sa aese 2579 7e4 1844 137 513 483 253 220 ee7 o o 92 2911 see eso es?1984 24ee es4 2e 7 439 349 592 519 934 2958 2244 es e2 762 als a20 249 74 e o MiopoiNT lae/2ao #1 7418 None c24 erdger Popuus#1+oosten opona45kvtmes 1559 2sas 1994 2cos 497 trai 142 say aos 107 177 1794 saa a47 100 2996 2570 762 la44 laa see 47a 251 22a eso o o os 2008 102 41e 4ei 17e7 2333 49e saa 422 294 45e 438 7e2 2040 214e es2 ce2 733 323 322 244 73 o o aRIDGER BRIDGEsA345#1 9824 Nonec24assagerPopuus#1+ooshen opona4skvtaesw/RAs 14ea 2701 17ee 1797 e72 152e loe 500 570 144 201 1894 54a aae se 2eee 2473 71a 1844 120 4ei 452 242 192 e7e 575 o 32 2184 248 754 77e 20ea 2577 7a ce as7 504 577 a 770 2014 22e7 2334 ede 110e 742 310 aos 245 77 e o amooER BRiooEaAa45#1 ease None 1)vonagevmazona e futeveisa lo fortevde Appendix 3-9 Pg.2 ---Post-transient Results For Bridger /Anticline West vs.Rock Springs -Firehole West counsassev .sense i er en mom i o a avan om tillissiillhui I agw.tgianRF aura a on aun idea asi eso 482 2eso 572 2400 ce2 e4e e72 90 848 saa 375 924 2eee 2427 ese 2959 19e 504 437 234 298 ese orr c se N2crtera,=>400 400 400 400 oc 200 zoo an os a Fe 2840 ivan 2520 499 2200 95 489 1235 lac lae 2os4 ses 495 as 2996 2575 75e 1644 152 503 524 252 243 722 c unwrone c noemypenni..n.=a..u.pn 194 in.9pay..t.ma vu 4es.ameuw i ilisi.y..tyme.ssu ata24eaas;a 14;sa;is;a-are 2e7e 1672 2400 1057 1702 271 e72|7ot 12e lee 1870 saa aa7|122|2eee|24ce sea|21eel112 504 43e |235 21e|e7e anc...ingenewayrismusican.eyimangpensiven ammagin 1)vanagevidateos>5mfortevdaa»9caterteveic Appendix 3-10 ---Post-transient Results For Bridger /Anticline West vs.MSTI courmessev, exascus er ava o ovvs no avan ...-.. v Îñ -.xw.ome.co....v"°^¯~¯h a i I .p.g.-ww ............4....a.,a....502 2eee 700 2400 4e 750 2e7 57e 2 87 27 298 2069 eso so 22 2eee 2308 493 ao a sot 488 253 239 |Is..o ...94 4,..a. o co2 ee2 aase es aso ees 2047 e 94 94 os 2998 2244 4ae 804 7ee o cae scrah-Pop 4ekvoLo non 4472a see e 427 2aa 54 ese 998 2aa 4ao ao os 4œ 466 246 202 692 575 ce c2e v FAc e2 2ee7 lesi 2407 413 isee 272 57e 2097 14e aos alaa eel 514 las 2998 3253 1762 1804 es ese ses 278 2aa 77e one -- ass ass ses es me ase mis eit als air es as e as as os we es es o 27 274..7284598232483 029 2149 2o6 606 25ea iso 274 2125 e67 488 ice 2998 2290 aos 1804 127 soa $21 260 2es 747 o o ecueng.news.rr i ir....tr.nav.a.m.scon.....aussic.ang ».m.o..« st 19 24oo som 292...4 2889 1701 2400 9238 9754 269 æ4 2287 927 292 2055 ese 498 120 2998 2298 489 9804 192 504 492 254 243 702 e o asceneng.ncirmnn.iusico.w.rg.ausannung ..m env.m.gin I I I I |ovo r2)Ex essommewa-swomo e1<mistan.m<te<tsmyo-a Ap p e n d i x 3- 1 1 Pg . 1 --- Po s t - t r a n s i e n t Re s u l t s Fo r Pa t h C So u t h b o u n d vs . Id a h o - Mo n t a n a (P a t h 18 ) an s e e Pr Pa t u r ons a Ac o crw a s uv A n era sh . d . d e . u s a r e t um se | wo n s v o o n o m o o co m u m m ese 1581 1641 1897 2250 27 457 o 2e7 707 120 337 1445 eaa y 3127 1287 teo s se e ao Ant e e-P o p 850 0 vu n e 2029 102a e 2ayo laa 4 da4 as see ea2 2a as7 1259 e47 154 2998 2978 9960 la o 4 en oc o e2e o e os 40s es e7e e4e os e 7e 457 052 ao e aos 4e as e o aR o o E R a4 5 a oo e 345 ea a n o aos a env sa y a m s 1 / 2 s e n e s c a ess 22ee es4 ese ero 95 9 2 4 2 es 498 es2 Tos ese ese se ses 2ee so o o so 92 e s o 31 a2e Mu p o -o m m 2 3 0 k v a n e le e 7 is s o 1640 1887 2249 272 467 o 2e7 70e 121 337 1446 eoe lee 2eee 3127 12ee le o s as 640 312 isa 221 e14 o o ese 227e es 17ee 730 1976 2414 1718 423 ee2 879 44 702 eaa le 7 7 ese 2500 844 1654 sea 367 aso 2ee 90 o o o a2 aze mo e s m k e - a o m e a e n c h 2 a c k v u 1667 is s o le 4 e la s e 2259 269 457 o 297 790 120 aas 9444 eaa 187 2998 3922 12a4 la o 4 as 540 als isa 223 694 e o ess 2277 e25 iva a 74a 1990 2407 1725 42e ase aas 458 797 70e le s s 70s 2509 a44 les e 954 357 ase 257 90 o o o as aa l Pa p a u s - a o m h e 2 a s a k v u n e 1867 1581 1843 1895 2253 2ea 49e o 297 Tae 120 as7 1445 eaa les 2998 3125 12e4 1804 as 540 als 19e 22 694 o o se 2277 e2e iv a a 751 1992 2430 1732 as 4e4 Til eaa le s e asi 2502 444 1857 954 357 350 267 90 o 49 sa m a a s s + d < o p ø n g e c o M w o f A e o l o s s e n + n s e < u o n o r 4 A e o m s a c o k v , 1 9 6 2 699 lo s s 1627 1897 les sie 27 289 192 104 ao s 1 4 9 4 e29 14e 2ess 2928 1962 1804 4e 504 287 167 224 e2e o 597 lav o 1946 192 9 se 597 le v e 2280 1594 1990 45 6 se are ina s 95e i 17ea 1675 2244 1490 937 als aio 245 as e o DA v E d o H N - D A v E U T P s l i a n t 99 7 5 % e 42 aa s d a a s a + k a s e n e r v a d a t i o n o r 2 m u s t a n g 2 a a k v a n d 1 R u e n o n 2 a a k v is e e eis 1049 1633 1900 17e sie 2e 270 lit a ilo as e 1 4 2 4 ea7 147 2eee 2929 11e4 1804 4e ses aae 187 224 eae o 597 las s 19e4 lis a e e4a 1995 2293 1627 122e .875 eso 49e 1637 163 1 1721 les e 2262 1487 ene 340 .aas 255 .89 e BA or 57 4 o DA v E d o H N - o A V E J T P s 1 1 5 # 1 91.7 0 % a onv N e vde wvo 4 sy ss a . . . . .- 2 a . . . s . « v . s . " " A a añ i d " Rú " && " d " im ä à i d " Lå l i ä ä & I" && s i ä lå 21 Li ä " k "d " à if IJ ' A sii à Ë° "k š š d š ° ad " & IL ha l f ã i ë MM M ° 45 aae a ass + d < a p s m e c o M w o f A e o l o s a a n + i o s e r u a n o r a A e o l u s s e o a v o 2476 2c r a 2995 3909 ita lai s se sea 495 9ca 347 la o s van 297 2998 3969 ta s a 1804 -se aa r l i e s 94 e l 2 e o ese o 597 1692 2977 992 a oss za4e 177a 9959 sy 602 se r as a ic 1 2 m W M A 2454 792 1709 990 saa 392 22a as e o oR a c e las so o A la a e l 1 9 7 . 7 4 % a I de sae d ase a + ¾ i s e m e n o f 2 M u s t a n a 2 3 0 k v a n d i m v e d o n 2 3 0 k v t a p s a 2472 2073 2995 3100 19e ela 100 sea -893 toe 347 1309 7ee 217 2eee aie s la e a 1804 -50 ae7 195 14e 2eo ese o 597 1633 2982 195 0 ode 074 13ea 1802 117e ael e12 607 e12 coa 103 1 122e 14ee 2461 714 1798 esa 340 327 235 -aa o o GRA C E 13 e s o o A 13 e # 1 97.e 7 % a 4e ase n Ex t r e n l e v e r s i a n o t a a e d a n c l u d e s a s e s a n o ore A esc o o k v o 249e 29cs 2966 all a iz t aio se ser 482 194 34 7 1 9 3 2 vec 21e 2ees 9979 las o 1804 as 370 19e 14e 267 eas o 597 lee s 2299 122 3 1996 1972 147e 1929 1250 945 esa are 102a 1996 194 6 1929 1500 2499 722 1987 cas see aa r 242 as le BA R o t av o GRa c E la s s o o A la e * 9 er2 7 % o ony N e u v «vo So aa e a k e a e a + R A s t a v p a a s t / 2 s e < i e s c a p ) o 246e 212e 2090 aose 110 ea2 121 420 ase es a4 9 1 a a e 793 21e 2eee 31ee 1387 1804 -50 ae4 192 145 255 e37 o ser o o DA v E d o H N - o A v E J T P s 1 1 5 # 1 96.6 7 % el aa7 Ae o l a s s a a t 2 3 0 k v T r a n e r o r m e r le s e le e s le a l la a e 224e 2e2 dea 2 2ea 716 114 aa 7 1 4 2 e ela lee 2eee 3122 1284 la o s se ese all isa 221 e14 o a le e l 2274 les e 174e 1730 1990 2424 1796 la a e ae4 877 1446 1687 169 0 le e 7 les e 2507 e41 les e e24 364 347 265 -ee o o AE o L u s soo t 2 a o # 2 83.4 6 % a 52 ase Ae o l a s - w n d s t a r 2 a c k v u n e is s o 9595 le o s la a s 224a 2ae 482 1 297 740 94 ase la s s e27 las 2998 3994 1277 la o 4 37 saa ao7 19e 229 ele o o 1659 2392 165 9 lao s 1765 2019 24ae iva n 1449 aus aas 1468 1735 172 3 le s s 1799 2537 aso 1627 960 342 saa 250 as e o DA v E d o H N - o A v e u T P s lis m i 99 . 4 7 9 . o se co 4 a a s u g e r - 3 M m K o i + a r er- P a se 2 a 4 5 k v su s A s 1760 la o s 1 9 3 2 e25 a 502 se see cae 114 se 2 1 4 5 e ese 152 2998 2e n 120e 1904 as 4e7 27e 182 223 847 575 o 253 ese 015 en 238 ese 24 eaa 37e 758 943 917 24a 449 2219 ene 4 47 saa 243 90 o PT R s N F R o s e s¾ r u n e s o n a s e e To co s t a gas - a m i+ a r er- P o se 2 a 4 e k v saw As 1694 1664 1770 ese a se 597 59 ses 292 isa 368 9587 684 134 2998 2876 1964 1804 28 449 244 les 228 ese lis o o 290 2097 oa oer o 284 ses 45 979 aso 767 97a 934 279 ses 2822 so o a 47 4 a24 242 92 2 Pm s w s o s e le v a s w u n a s o e c e s s 90 c29 e v+a ot2 a a vn e s t m o sees 1979 ese as7 a 270 457 297 70s 445 eos las 2998 se ao4 as 540 es 222 e4 e o 649 e se 1793 eas a27 aos se e57 679 49 44 e4e 952 357 90 o se c2 e y e v TeT w o u n a 1743 le e o 1621 is o a 2404 11e 455 11 307 ess le s see 1501 e17 iso 2996 aces 2611 iso n is eaa aos 242 231 eye o o 4 e 6 es e o se o HE s s e o w lie e.e o e ou N A T P es vu c c A w es se e o 97 MM W m m i n i MM M Mm m N2c r e e r 400 400 400 400 too 250 250 se le s e 1581 1641 1ee7 2250 aae 45e a 2e7 692 122 354 144e eos 187 2eee alle 1284 1804 as 540 313 ise 220 eis o | o M- M W W y m i M A B R I - t @ i m i t g i l i g m i g smiil i im i i m W W W oo eg u s t g i a n s p== 28 e : pia sa y . s e ivo s is s y 9697 la s ? 23e2 las 478 1 297 ass la y sa? id e a eso les 2e s s | 2 e s 4 1392 la c e ao 49s 273 las 228 e12 o o WH A R E W W i j W M i i W W M m m i m m w W W I W W i g s m i t t i m m i m m i g 1) va a g e v e a s o n s > 5 % f o r t e v e l a a > 1 o % f o r t e v d e 2) Ew a d i n g ser i e s c a p a u s e s t u n e ad e ) a n d T r a n s f o r n w t e r u a g e u s e s . Appendix 3-11 Pg.2 ---Post-transient Results For Path C Southbound vs.Idaho -Montana (Path 18) 7 isse 16 9 1929 2250 2 4 s As L se «T w MA u e a em .umma | io ao4 arages-smarnais4eavune 1782 9592 9872 94as 20a2 2as sov a2 suo 729 ici ao2 isoo ee4 176 29ee soso 924a leo4 40 52e 298 isa 2av 652 o o 92as 1952 loa4 9096 996 9267 9722 1940 saa sa4 120s 942cum la laae as as;a44 24e e a soo sses v wy 11 aos ardaer 345/2ackvTransformer lese leas ie7e 1920 2243 282 499 e 302 ess las 285 1545 e43 les 2eee 3103 12e2 1804 as 534 aca ise 222 ea2 e o 1574 2233 1545 1795 leea w##2394 lees #m as asa 40e 1654 e4e lees leesm#m eso 1579 saa 347 34e 253 as a 12 see amaanol-coshena45kvane 1794 1612 1739 1824 2230 2ee soo 11 307 707 11e 292 seas ede 182 2eee 3091 1252 last 4e eas aca ise 219 eaa e o less 219e 14ee meio 1678 lade 2289 1617 321 e2 737 249 maae 514 1612 less 2415 e2e iseo sao aos 349 e##e7 e c e sona van Inna le aos Kaapo scraha4ekvune lese lese 1674 1932 224e 2ee 500 1 2e7 esi 127 2ee 1647 e42 lee 2eee 310e 12ee 1804 37 eaa 302 ise 224 e23 e o lee7 2227##*#1ee4 e73 1939 2377 1670 339 7eo als 12ee leos 1632 lese less 2448 eaa 1671 352 34e as a le aos Popeus-aosahecokvune 1716 leos lece 19ee 223e 2e2 soo e 301 70e 121 286 1536 e43 177 29ee 3094 1253 1804 43 ese aos 19e 230 e22 e o um 2207euw 1592 534 1876 mm 1629 341 812 een 1370 1eoe 1609 1643 lees 2428 829 1571 sae 352 347 254 87 o is a12 Popaus cedarHalsookvune 1697 yeae 1682 1927 2255 2eo 499 i 2ee 697 12e 285 154e e41 lee 2eee aloi 12ei 1804 as saa 304 lee 222 e22 e o 15ee 2233 #me 1515 m 1999 22eimm 341 e27 .ede 13ea lese 15e4 m##1705 o aal 1577 m 352 347 255 as a 20 814 cedarHia-Hemingwaysockvane 1700 1633 1675 1929 225e 279 soo i 297 697 12e 286 1645 e42 las 2eee 3102 12ei last as eas aca ise 223 e23 e o lede 2217 144e 14ee lese 1937 221e 1044 1301 804 -e2e ##e#1514 e##1634 1675 2439 ese lese saa 362 347 254 es e 29 695 maapoint-Hemmmaysootvune 1709 1648 lees 1959 2994 any sic 4 ano 592 142 294 isse ene 157 2996 3969 laos 1804 as 594 299 iso 239 e2a o o 1507 2997 lass 1472 1377 1334 2932 1587 1298 ras -res ensmenos las2emerus 2495 425 1597 924 349 agree 259 49 o 22 ate coran-Mupdatsockvune troo 1632 1673 1929 2249 27a 500 1 2ea 697 12e 2as 1545 642 ta4 29ee atoa 1289 1804 as saa aca 196 224 e2a o o 1552 2215 1477 1570 142a 1798 2aco taas tatt 799 42a tala 1534 1523 teso 1678 24assesse teet saa 352 as7 254 as a 23 a17 Midpornecota4ekvTrarstormer 1702 1634 1ee4 1942 223e 2ee saa 2 2ee ese iso 2ee 1661 e44 lea 2eee 312e 1274 laos 47 eaa 2ee 194 231 e22 e o 1667 222e 1633 lees less *#4 2342 leea 1367 eal e44 1382 1625 1614 w##1697 2462 eaa 1672 936 ael 34e 264 ##w#a e 24 sis Mieponta4et2aokvTsa<aformes lese 1636 1679 192e 2261 283 Soo o 297 ese 12e 286 154e e42 lee 29ee 3103 12e2 laos as 534 aca lee 223 e23 e o 1574 2233 1645 1709 leea 1945 mm lesa 1371 eal ee4 1403 1649 1641 leea lesa 24ee sai 1578 sae 352 mm 254 as e o 27 e21 aorah Adelade Mupd<9t#1345kvu<e lese 1634 1677 1929 2247 284 soo i 2e7 694 127 285 154e e42 lee 2eee 3904 12ea 1804 as 534 aca 195 223 e23 e o ses 2223 sie lees e43 isas 2371 ee7 341 eli aae o see eso e4e e7e 2444 eaa 15ee saa 352 347 w##as e a 28 822 scrah-Hunt2ackvane less seas 1678 192e 225e 282 soo e 297 694 12e 286 164e e42 las 2eee 3104 12ea 1864 as 534 aca ise 223 e23 e o 670 2229 eas 1694 e72 1944 237e e77 ase e21 e 379 e2e e17 ese ese 2451 eso e##saa e#o 347 254 es e o 31 a2e udpoim Dram230kvane lese lese ie7e 192e 2249 284 600 a 2e7 692 127 2ee 1647 e42 las 2eee 3104 12ea isos se 534 aos 19e 222 eaa o o ses 222e ese ese ses is2e##w e7e 382 eae e4e asi 634 e2e es7 eel 2461 ese 1674 936 #w 347 264 as e o 32 s2e names ake-sosesench230kvane lese 1634 1678 1928 2261 281 Soo o 297 697 12e 286 154e e42 lee 29ee 3102 12e2 laos as ese aca lee 22e e23 e o 572 2230 643 710 wwen es2 aes e29 852 402 e49 e43 eel 684 2463 ea 57e sae 352 mm 264 as e o eso Pop eorah 45kvune 697 ea7 lees 1927 2255 2e 499 2ee es 2e 285 154e e41 les 2eee 3102 12ei 1804 as saa 304 lee 222 e22 e o ee2 223e ses 74 24 707 e e44 ees 434 e7 eso ee2 eaa o see 937 352 347 255 as o rcase o en to cas o van a arcaes o venoso .rc a noce aos encuen aos a I os sa i I ce se so i i 14 I I I PTassum maasei in i i eccer eccee i I i minswunesacean i osuc oc ruou .>e ]oc c urvaswuneogosas i se oy 774 ne i Pras rum sagesel i 82 c12x|Popa 2-7 a4eav+Treasuseton-esadv2a 17e?1529 less 1772 2oos ae4 ele sa aso ese|12s 2ee eso eer 209 29ee 3964 maio 1804 19 so?2ee see 212 ese o o as cia lsorah-Adeade#2+sorahmov-Midpoet#1345k 1700 lese 1677 1923 22ee 2e7 499 1 297 706 124 283 543 e42 17e 2eee acee 1255 last 42 637 364 ise 22e e23 e o ees 22 487 eo so 2aos e44 De 790 e 290 so 4ee e24 ee2 2432 e see 362 347 254 es o es cielsorah Napon+aorab-AdeWMupdat#134ekvan 1700 1634 1672 1933 2244 2ee 501 1 2e7 692 127 2ee 1647 e42 187 2996 310e 12ee 1804 37 eaa 302 ise 224 e23 e o eso 2219 496 ese 23ee eso all 7e4 224 643 646 eso ee2m#w eso see##w 362 34e 264 e o 87 cia leosan-Kapon+Miepoint-Adeamex234ekvens lese leae 1674 1934 2243 291 501 1 297 eas 12e 28e 1648 e42 las 29ee 3107 12e7 laos se 532 302 ise 224 e23 e o ee7 2227 ele ee7 ese 2aae sea 332 77e se 250 579 ese ee4 esa 2449ews 5714ew 352 34e 254 as o 90 c21|aorahAdesudpolat*1345kv+eorah-Hunt230kvi lese 1634 ye7e 1928 224e 2ea 500 1 2e7 es4 127 285 154e e42 les 2eee 3904 12ea 1804 as 534 aca ise 224 e23 e a 2221 See e42 e21 sa2##w eë7e#m 800 e2e 320 554 52 eas e7e 2441 .eaa ee7 934 352 347 w##as o si c23|sorah-Adei#2345kv+sorah-Mapoetsockvar 1701 1629 1672 1927 2253 271 499 1 2ee 702 12e 284 1643 e42 1812eee aose 1267 last 41 ese 304 ise 224 e23 e o 64e 220e 520 sea e####m e se#o 7e2 807 270 473 es ese 2425#*eas 932 362 347 254 es e u..r 1634 sete 1927 22eo 296 499 o 297 es2 923 299 1643 e49 lee 29ee 3902 9269 iso4 as sae ao4 ise 222 e2e o o cm...Po...y oc ....esswaae vezes..v teos 9649 1923 2aea 137 514 o 297 454 12e 2as 1546658 tes29eestaa ta4e tact 29 saa 27a ta7 2a2 e29 e o .-rima sicos.y «.r Po.a suay evonageviaatons>s%f<rteveisa>10%fostevac 2)Exdteingseriescapausestune swe)a<wTransfo<merterwaryteses. Appendix 3-12 Pg.1 ---Post-transient Results For Path C Southbound vs.Bonanza West wo.o...;co- alil 11. aos en Taas 979 ese e 2996 es aae 72 299 2ee 202 227 elo o 54 a4e acomara-Manaa45tvune 769 2008 inst 2429 20 s a4a 149 el 442 08 109 2as 294a 167 too 29ee 262e act iets de 222 2a4 tra 238 eet e o e2 20aa 204 Ma 49a a22 2310 Bai or 7 762 2e «a 4e 760 972 227 45 av aar aa4 air 244 54 7 MooN en MMMGM MM 55 e40a sonatma-Monaa45kvune+RAsTpson 7451963 154323ea 2093 717 453 39 411 32 142 293 2074 131 154 2eee 2e14 aae 1915 37 202 230 17e 23e ela o o as 211e sea 604 eat see 23ea eal 24a 79 aos amo 579 se 840 2039 234 4e7 23 ee4 341 322 2e se o MMmmmd M NomearamPonttunnanon a41 Headmway-sammertakescokv ela 1975|15ei 2343 e4e 94e lseal y aae a l iao 27e|1940 7ee 157 |2eee|2ee7 ee4 isis|72 aco 2e7 |202|227 elo |o |o 7 e 73a tiilië-MWWWWl!9 crned oc co oo 500 oc oc co 75 cock Populo -sento ondasakvoLo+RAs air 1743 14632ceo 1920 1994 eas os 499 129 14 278 9997 aas 19:2eee 28931964 1995 25 227 259 tes 219 eas e o 7e co7 aento and-Te a45kvoLo e241964 1558 2337 la25 982 ses 4 375 e iso 279 1939 790 iso 2996 27o1(a75 1995 es 295 294 209 22e elo o o 64 os ano 700 e 987 2227 e 44 956 se c2ey Paavedeceneason Tapy ese ises 1544 2342 2012 Tae ese a aa?ea 162 294 isse 769 leo 2996 asi?2092 1995 45 4ea ase 246 231 eea o o IsP Nas sotAosTON 115 110427 o e43 2047 1612 23ee 1849 ocas e4e i aao ao 127 279 20e7 e24 ise 2eee 2ea2 e12 1995 74 2ee aes 200 aae ea4 2e<ae<i 400 400 400 400 too 250 250 oo eg..tysans p=.99.2 6.Tatsaw 9697 1962 isse|2395 -9942 825 ele 2 aal 13e 132 279 1949 Tas 167 2998 2739 914 1995 e4 300 279 isa 230 809 e o 11 ptiWWWWantuimimmli-gammmWWW 1)vdtaevidato<e>s%fortevdaa>10%forteveic 2)Exemmagsedescapsueestunesme>andvrandormertemarveuses. Ap p e n d i x 3- 1 2 Pg . 2 - - - Po s t - t r a n s i e n t Re s u l t s Fo r Pa t h C So u t h b o u n d vs . Bo n a n z a We s t sA s e c A s PTP A T B F L o w s a AC T asA c T N E M A n o i N uvA n lor a y a n a d a d e s s a a r e m im u m m a r ¢ w 6 wonsttonomo3comuENT il if f i l l i li l l : l i i s i l l i a s i l l i l l i l l i l : l l i l l i l l i ! ! ! ! ! ! ! ! ! es . s t g i a n e pas 225 0 . . . 6 . 1 4 9 2 . , 1729 lac e 1473 222e 2250 asa 600 2 377 eaa 124 280 187 e 749 ise 2eee ao2e 1989 1804 ae 295 216 167 244 eos e o e -- m i t g g - e so l Am m i n e - P o p a u s e c o k v u n e 2053 lao s o 3093 1863 71 eae ao 461 aae 40 282 170 0 784 les 2eee 2ee7 1071 1804 Se 307 217 le s 350 ele o a 1934 1725 see 1949 ile s 1420 17e e 123e aca ses 649 e43 1073 lo e a 145e 1797 2020 ese 1222 ase 341 ale 240 7e o asocERwoacorma4euseoaraneramiexnolia4ekv 7 sol a An t o i n e - P o p a u s s o o k v a n e + R A s T r i p e < i d g e r u s 1987 14e 4 o 2755 1827 171 esa 4a 424 a ao 298 iso s 799 14e 2996 27ea lo s e 1804 49 2ss lee 155 821 607 575 o 1937 1857 eaa 1283 1289 1511 17e e 1822 sia eso e2e oe2 1281 1288 1609 1922 21ee ese 1219 84e sac 207 240 79 e o 2 aos aM e k n o t - c o s h e n a 4 e k v t a e 1749 177 7 iss o 2099 222e 337 600 10 saa eso 11e 2ea 188 2 754 191 2eee so l o 1977 1804 as 297 21e sea 240 ea l e o 1654 219e lee s le a a le a 7 ese 21ea 1641 1402 eoe 7ea 12ee 1612 ese ia 4 e 2077 24e 740 1640 967 357 aa7 2ee a2 e oero/LaMM-soda a see k aM e k o o d - c o n h e n a 4 5 k v u n e + R A s i s y p a s s i / 2 e 1759 1761 1572 2045 2995 aae eco 2 401 e4e 112 290 1858 7ee 191 2eee sol i 1977 1804 as 2ee 215 167 240 ele o o o 14 aov «m p u t - c o s e e n a 4 e k v u n e 1727 lao s id e o 2247 2252 362 soo a 375 eso 124 2as ca r r vaa 19e 2996 3024 lis o 1804 as 295 295 167 247 609 o 12 9 2 ¾ ¾ © 505 1480 les s le s s iso s 2940 2522 745 1579 965 aos as4 258 42 e augersualexmua4ekv 15 aca Kin p a n - s o r a h a s s a v u n e ir a i 180 4 1499 2230 2249 360 600 -2 377 es2 124 2eo lev a 750 19e 2996 3026 1990 1804 35 295 295 167 245 609 o 149e 492 45 5 is a s 97ee 1725 1905 2127 2507 744 1585 eas ass aas 25e 42 e o le aos Po p o s . - B o r a n s o o k v u < m 174e 178 0 id o s 22e5 2237 337 600 2 asi ene los 280 188 7 750 187 2eee 3015 1979 1804 40 2ee 217 yee 252 601 o 1491 .e4 e .see 143e les a iss o le s s 2117 24e7 743 lee 4 se4 asa 334 ase .82 e o 17 sie s« a h s o o t a 4 e k v T r a r a f « m e r 1739 17e e 1429 2269 2220 378 eaa 1 380 695 92e 284 187 8 759 lee 2eee acae 9200 1804 aa 290 292 le e 248 609 e 1493 -82 8 -ase 1393 lee s 95es 1892 2929 2498 742 95ea sea 362 aaa 267 -82 e o la sii sw a n s 4 5 / 2 a a k v T s a n s f u m e r 1739 lao s 14e2 22a4 2240 se4 609 i sao 2e 124 284 lav e 749 ise 2996 9025 1999 1804 se 295 295 167 247 609 o 1497 492 as i 1400 1699 1699 la g e 212e 2590 744 iss a 964 ass aa4 258 42 o ooncelassooAlaaela4o is 692 Po p m e - c e < w H i s s o c k v u n e 1727 9ai o in a l 2227 2253 asa 600 a are a2a 925 2ao says 749 996 2996 ac29 9990 9804 as 295 295 167 244 600 o 14a2 der 49 9 9453 9ea2 9696 999a 2945 2524 745 1587 ses as4 aan 259 42 o 20 a14 ce d a r m i l - H e m i m w a v e o o k v a n e 1729 180 7 147e 222e 2247 364 600 a 37e ez7 12e 281 187 8 750 19e 2eee ao2e 1991 1804 se 295 21e 167 24e 601 e o le e 7 2234 1637 1674 le e s ses 2034 los e casa a4e aes 140e lea a 1644 1891 2129 2eo4 744 1654 sea asa aa4 2ea a2 e a 21 eis Ma p a a t - H e m b a m a y s o c k v a n e 1782 182 0 14ee 2252 2187 44a e11 1 880 517 142 299 189 9 76e les 2996 8092 1241 1804 37 272 209 161 254 eos e o 1527 220e 14ea 1570 14ee 892 iss e 1622 1299 77e aos 1275 1498 id e o 1825 2078 2470 7ae isl a 949 aso 827 255 as e oLocusTlasMoRAlae#1aso 24 ele Mu p d < a t a 4 5 / 2 a c k v T r a < a s t o r m e r 1730 180 4 1472 222e 2250 ase 600 37e ea7 123 279 187 5 749 97 2eee acas 1987 1804 as 2ee 21e see 245 601 o o sea 2243 ele 7ee 76e 970 aae s 714 447 se2 ese 477 743 729 920 213e 2613 744 ee7 se4 asa aas 258 e2 o 27 629 ear a n - A d d a m e - m a p o e t s i a 4 5 k v u m tra i saca 1479 2227 2249 ass 600 2 avr aas 12a 279 987 5 749 195 2996 ac24 99aa is o 4 as 298 296 9ea 245 609 e o 957a 22a4 1594 1760 1725 9956 2260 1763 1420 45 72 142a 9eae iss a 1897 2922 25e2 744 iss a sea asa aa4 25e 2 o 2e a22 aor a h Hu n t 2 3 0 k v a n e 1731 lao s 1472 2227 2251 aos eco a 37e ese 123 279 187 6 749 ise 2eee 3024 1987 1804 se 2ee 21e sea 24e 601 e o le a l 2240 1eos 17ee 1761 is e e 22ee 1791 1438 ee4 ee l 14ee 1724 170s 1992 2133 2eos 744 les e sea asa aae 2ea a2 e oa 2e e2a udp a a t - s o i s e e e n c h e s 2 a c k v a n e 1781 180 4 1472 2228 224 9 as7 600 2 377 ea4 124 280 187 e 749 ise 2996 acas 1988 1804 se 29e 21e 167 245 609 e o is s o 2289 leo s 177e 1782 is s e 2255 17ea 14ae ese ee l 145e 1718 1700 1999 2982 25ca 744 ise 4 sea asa aa4 25e 82 e oo ao a24 um p a n t - m a t u e s n a k e 2 a c a v u n e 97ao lao s 1472 222e 2248 aso soo 2 377 eso 925 2ao 187 7 750 194 2996 3027 lis o 1804 as 295 295 167 244 609 o o is s o 2240 iso i 1759 le s s 1904 2299 yea s 1489 maa 47 9 14ss 1694 le s s iso a 29as 2590 744 1584 963 aos as4 258 42 o si 825 Me d o t - D < a m 2 3 0 k v a n e ir a i 180 4 1472 222e 2249 357 600 2 377 eas 124 2eo lev e 749 195 2996 3025 lic a te o s se 2ee 295 le s 244 609 o o 1589 2241 9690 97ee 1749 le s e 2287 170e 1449 458 48 4 1467 9732 1797 1995 2935 as i o 744 1585 eas ass aan 25e 42 e oo 32 e2e Ra t e s < 9 a k e . - a d s e e e < c e 2 3 e k v u < m 1730 180 4 1472 222e 2250 ase eco 2 377 ese 123 279 187 5 749 ise 2eee acas 1987 1804 se 2ee 21e see 245 601 o a 1582 2242 lei e 1802 1765 1972 225 2 1794 1447 se2 ee7 1479 1747 1734 1920 2937 2611 744 15ee 964 asa aas 258 e2 e oo 33 s27 su s e s e n o n - D r a m 2 3 e k v t a e 1730 mace 1472 2228 2249 aos eco 2 377 ea2 924 280 187 e 749 les 2eee ac2e 1989 1804 se 2ee 295 167 244 609 e o 9582 2243 lel e te o s 97ee 1977 2290 1798 1447 se2 887 1480 9748 173e 1929 2939 2692 744 95ee ee4 asa aae 2ea 82 e oe se sa l Po p a t s ao s a h # a a 4 e k v a n e 1730 lao s 1474 222e 2253 354 ese a 37e ese 123 2eo 187 6 749 ise 2eee 3023 11ae 1804 37 297 21e sea 244 601 e o le a 4 2242 lei s la o s 17ee 1971 22ea 1721 1450 ee4 ees 1484 1739 720 1997 2134 2611 746 eea se4 asa aae 2ea a2 e oo 37 es2 Po p o s - K l a p o r t a 4 5 k v u n e 172e iso s 1470 22ae 22 e i asa 599 a 37e ese 12a 2ea 187 e 74e 194 2996 acao 1984 1804 as 298 217 le s 24e 600 o o is s a 2255 yeaa 1812 1748 is e l 228 9 1722 1449 754 eaa 1999 17es e77 iss o 214e 2528 74e 57e se r 354 aas 259 82 e oentooER845anooEaAa45#1aseeoa<gesaMileKolia45kv 40 eas Ae o l a s . - A < n w i < m e c o u < 9 e 2327 749 7ee 1965 1741 le 700 24 ase see 21 302 148 0 7ee ise 2eee 2850 1039 1804 el 295 20e sea 240 73e o o mi 1252 1320 is e s 195 4 1342 .804 781 732 19ee 1260 aoe 1980 Mí im n g ¾ 17e ma l ea 7e LAT H A M 345 123 mm¾WWW-mêmaWPovdevei<9Areasesa<9d73 49 ass a ass e u r o p ø n g e o o m w o t A e a u s g e n + m s o r m a n o f 4 2994 657 757 1929 le s s 152 es2 as a4e to e s 77 aos ive s 77e 94a 29 9 6 2 7 9 9 9049 9804 4e 258 la s 1 5 4 245 esy o 597 9025 les o 1228 9684 170e 1928 2924 1649 9285 999 sia 94ee 1797 Too seas 2000 2025 677 ilo ? 199 299 269 286 Ta 4 om e A v o i v a 4 5 sa o,oAvedomN19eDAveaves195e985.52%oonyvesvsanwyomio 42 sae d sa e a + a n e u m a t a m o n o r 2 M u s t a m 2 a c k v a n d 1 R 210e ese 769 9929 1897 146 679 31 348 sees 82 aoa l 1 7 7 4 775 149 2eee 2eos 90 4 2 | 1 8 0 4 4e 259 lee 15 6 1 2 4 6 634 e 597 mes e 1701 9251 1728 1749 is s a 2936 1677 9324 920 sas 1523 17ee 752 iss e 2017 2045 1 682 1939 890 394 296 24e 7e o oloAveuomN916DAveuTPsmissias.como 43 ass a ase d + 1 a s e n e n t a d a m o n o f 2 D a w n s e e k v e a p a + P a 211e eso 7e2 1924 1820 12 e | e 7 e 34 346 1070 ao aa2 | 1 7 7 7 | 7 7 4 leo 2e e e 2 7 e a | 1 0 a s | 1 a o 4 | 49 2e4 9e a l l e e | 2 4 2 eso o 697 ilo s 1861 1327 ese la a e 20ee 2211 1760 1422 999 000 1ees 1923 see 20ee 216e 2236 es2 1990 aae als 302 249 7e e alo o R A s s e s as oIDAvEdoHNileoAvEJTPsile#i86.24%aNeuvdevamwya,PiaaMont de sae d ese a + m e e n e n o f 2 M u s t a n g 2 3 0 a v a n d i m v e < t o n 2 o 275 7 1982 254 3 8132 2cs 750 103 aus -e13 laa 295 ira s aos 227 2996 acee 1311 1804 -57 97 al lo v 292 ees o ee? le o s 2cas e17 eas ese ilo e 14e ? ee4 71e ele eos Tao so i aa l 1099 1547 2270 ese 1630 loc a asi ace 231 77 o mimmm¾¾mmmmso 47 ese g eae d + i < a s e n w < i o t 2 c h a p p e i c a s o k v e a p s a 27 5 8 1 9 3 2 2 5 4 2 ala i 290 750 104 4ee .81 2 los aes | 1 7 3 5 90 5 | 2 2 7 as e e l a o s e 1 3 1 1 9 e o 4 .57 97 e2 oce | 2 9 2 es4 e 597 1529 2o t a saa as7 887 112e 148 3 saa 735 saa 520 757 als aso 1992 1572 aae l ase 1645 loo s asa aio 242 7e o Emini-WW--WW¾io da aas k Ex t < e m e v e r d o n « a a e s i n d u d e s se d i o n « l m o r e o 27e a 19 3 6 2 5 4 a aia s 290 749 904 4ae 492 ica 2es | 9 7 a s 90 5 | 2 2 7 2e s a l a o s a ia 1 2 9804 -57 97 a2 9ca l 2 9 2 ass o 597 1559 2639 999 437 maa 1907 145 9 984 799 52a 590 747 ao s ao 1905 9569 are 555 9eaa 9034 a2a 2ea 226 va e am R o i t 57 62 mimWWWMM--WAeNeavdevamwyo,P9aaMont 49 ase n exw e m e v e r s i o n w a a e d a n c des su r m a n a l m o r e o 27e 4 iss e 254 4 ais e 292 74a lo s 487 mio los 2ee 174 0 aos 228 2996 aose 1992 9804 -57 es a2 lo a 292 654 o 597 is t a 2o4e 934 aos 487 1929 laa s esa Tao 549 52o Tes als 59 9928 in a l 2285 sea 1704 lea s ass aca 2ss ya e aA l m o l t 57 e4 mmf@¾¾œ¾¾mmimjfgoonyvesvsanwyoming 52 ese Ae o l a s - w i < e s t a r 2 3 0 k v a n e 1677 170 e 1423 220e 2241 aos ese .a 37e eaa es 284 176 0 773 isa aese acos 117e 1804 34 2ee 207 164 245 eas e o 1587 22e7 e72 1841 1793 is e e 22ea 735 1477 eea ses 501 1777 7e2 1933 215e 2552 71e 154e 974 a2e aos 24e 7e o oAEoLua230DuNLAPTP230#1e4.13%a sa sas Ae o l u s - F r e e z e o n 2 3 0 k v a n e 1795 182 9 14e2 2243 2252 asa 597 e 386 ea4 92e 279 188 3 750 19e 2eee 3024 1990 1804 as 2ee 295 167 246 604 e o 9502 22ea iss a 17ee 1759 1973 22ee 1792 1497 867 875 14e7 9727 798 1998 2942 2525 744 14 8 2 m g t 364 aae 2ee 82 e e------o 54 eso so n a w a - M a n a s s a k v a n e le v a les s 1502 2ace 2442 2ee ira se 439 725 97 2ee 2079 163 199 2ees 2984 1929 1804 19 229 159 141 25e esa o o 1208 2oaa 1290 1408 94aa 1794 207e 147e 1994 749 75e 121e 1983 402 la a e 1942 2355 52e 1299 44e aar als 242 5 Moo N L A 1e s se UlfggWWWWRHmmmmoonevdevalowromio $5 ano s am a n r a - m o n a a 4 m v u n e RA s T s p o o n a n r 1859 lac o 1459 2258 2472 169 4a2 as 49a 27 939 292 2c i a 132 isa 2996 2954 1959 9804 4 204 147 la s 259 629 o o la o s 2902 lat e iso i is o a 1759 2oes isa i 1202 Tea vae 1268 14e2 479 9799 is s a 2407 as la t i 482 342 397 24e 77 o mgggggg-WWWWUtgigmsoNomogramPointtunnaton o e41 He m m w a y sam m e r t a k e s o o k v e 1724 yea a 1499 223e 219e 447 elo 2 377 523 13e aas lee s 755 174 2998 aces 1242 1804 33 272 201 161 259 eaa o o a e o co m u n g e n e n e 60 . er se 229 473 aemooEnsesemoosuasset1979eraranerauexcoa4ekv 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1427 aaae 221e 231 sae e 384 e7e 14 ee 1832 702 141 2eee 312e 1973 1804 45 2ea 67 21e 222 573 e o sea 2307 557 71e e7e 7 2419 ese see saa e47 410 eso e43 sia 2157 2589 7eo eaa saa aos aa2 ase 72 e o LocusT lasmo 13e#1 e o 32 s2e a eenake somosenen23ekvum 70e 778 4ee 2200 225 as e2e 380 e22 927 50 897 ee7 205 2eee 3074 4e 804 2e 298 se 2 4 20 572 e o e2e 2325 e ace 774 2094 25e2 756 42 eee 87e 480 748 737 see 2978 2eos 7ee ea2 see 367 334 2ec 72 e o LocusT iseMo 93e#9 87 a¾c as aao Populus-sorah#134ekvum 1704 1781 14ea 2200 22e4 lee e2e o 379 e2e 12e ao leia ese 203 2eee 3079 114e 1804 27 2ea 97 214 isa 671 o o ese 2333 eaa laae 1801 2037 2eol 1779 443 aa2 eel 1611 17ea 750 976 21ae 2819 7ee e4e see 357 aa4 2eo 72 e o se sai Populus-sorah#234ekvum 170s 1780 1457 2200 2252 lae 528 i 380 e2e 12e so 1818 es?2ca 2996 aora 1947 1804 27 297 se 214 isa 572 e o e2e 2825 eis 1813 177e 2014 2578 17ea 424 7e 480 14e?1741 724 see 217e 2eos 785 eaa 987 as?asa 2eo 72 e o as 834 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H a n t 2 a c k v i i < m s t R A n 170e 1761 147 1 1877 2246 as e41 475 7eo sea 121 280 1874 723 20e 2ese 2990 1932 1804 24 422 197 le s 235 esa o o 402 2019 395 527 52e ea2 220e 572 is i 7ee 790 1973 1431 14e e ses 592 2229 710 aee .877 aas aoe 211 .aa o o ao c2 e se r a b a d e o n i d p o i n t # 1 + M a p a a t - A d e l a d e # 2 3 4 5 k v i i n e s 170e 17es 147 0 1882 2229 es e43 475 7eo 952 12e 282 1879 724 21e 2996 2999 1942 las t la 418 194 167 236 esa e o 1393 2012 137 3 1471 1459 1863 2214 1654 1971 781 791 lie s la e l 132 7 lae 2 iss o 2221 7ea 1388 -874 aa4 aos 21e -83 e o si c29 em a n - A d e i - u m p a n t e l a 4 e k v . s o s a Hun t 2 a a k v e n e s a w iv o s 1769 147 4 1874 v4 e as 649 475 re o ses 129 2eo 1874 72a 2ce 2996 2990 1939 1804 24 422 197 is a 234 esa o o la s e l 2ci s isa s 1592 is o i 1830 2997 1570 1994 797 05 12ae 1494 140 5 caso 1589 25 vio 1394 47 6 aan aoe 299 as o 92 c2 a ea r e n - A d d e 2 a 4 5 e v + a o r a n - M u p d a t s a c e v a n e s 1707 1760 1474 ta7 2 2246 as 649 475 760 962 ta 2ao 1874 72a 2ca 2ees 29 e t sta t 1804 25 42a 197 ta s 2as es4 a o taa s | 2co2 taa s 1410 1285 tes e 2074 taa t 1956 7at 7aa its e 1349 ta4 e tas 2 15ee at t vos tas t ara aan aos 290 as a sa c24 ara n e r Po p u e s # 1 + o o s h e n op o n a 4 e k v a n e s 1747 1703 lei e 1623 2168 i e43 501 7ee 992 10e 282 la s i 736 201 2eee 2974 111e 1804 2e 420 194 167 242 ees e o 12 7 e i 1897 los a 1271 12ee 167e 2009 13ee 790 281 40s 1999 1227 123 6 121e 14ee 2102 ese 12e2 ese aae aos 209 ea o aR o o E R 346 aR o a E s A 3 4 6 as e 7 o et .,. . . w a am um ers a , « . . v rae 97aa 944 9 la e s 2ae2 iso 649 475 760 199a tal 2ao iss o 740 295 2996 3076 1294 lao s 94 aas saa 147 244 657 asc wo e . a . w n s . i n s s i c o s . .e s a c . e n g .. m w n . em ma y 1)v o ge v i o on s > s % m s t e v e i s a > i o m f a t e v e i c 2)E m a u d n a s e r i e s c a p a u s e s t u n e s i d e ) a n d i r a n s f o r m e r t e o r r e u s e s . Appendix 3-15 ---Post-transient Results For Path C Southbound vs.Rock Springs /Firehole West coNnNoENcyt anecAsetPTPATurtows e ace aEacTwenanoiNuvantotayanad.I inas.t imummatos wonsttoAinNa2 ""coment I e ,rc so4 a a45kvu acoRAsses e4 o DoN lasPINoRE lass a Ivdevs sma<ePietw sypass 2ae esca a 5e a GE a cavu oPULus aan PoPutus so ao o saa Aedus-w datar2aekvune e44 692 e2 944 2242 se se a2 eaa 284 764 749 se 2996 29 os 804 a sae 20e ea 233 652 e o 4 e57 ees a27 as 604 e ce 697 22e e e 2ee 224 Ta o DAv oHN ov vps a2 o e a4ca accan Mooaa45tvune+RAs acomaraPant a2 77e as se 24a2 er 4a asa ero 292 20 o oa se 2996 2a o4e ao4 e as 24a eso o 902 4e a4e se 20ao 4 o 640 720 vao 27e 297 as 297 77 o GRAc a soDA as e aco4 a es co2b arklaer-Popu e*1+«2345kvaneswiRAs test 992 isee ael 1927 47a Tas 344 est sia les ace 2093 773 14e 2eee 2eae 95:1804 17 347 944 134 2aa ese wra o 07e 1992 ese les 219 430 720 27 4 es4 es 024 92 e4 530 2935 ese 02 vae 2ee 21e 4 o PTRsNFsoes as o HARDIN 230 HARDIN 195*1 9258%1 TRsNFUResoccesa se coa a<siger-ameKndi+amger-popeassiamavenes 1862 eas less lois laae 49 eaa 463 ne 932 74 aos 177a 779 lao 2996 2aal 102e iso4 as 437 20s 161 245 799 e o aos lava ens e7e os aos 290 790 585 2ee 2ao e14 946 e42 ee4 938 Tia aio 90 a o aloosAsses es o aRIDGER 2ao RocKsPes2aoni 9220%1 TRsNFusesogosey vi co4 a er-awatodi+a<mm<-Popeassaa45evenes 1862 sas19831095 laae 49 eaa 4ea Tre saa 74 aoa 177a 779 lao 2eee 2aal 102e 1804 as 437 20s 969 245 799 e o avatam--WWW 2ee 507 9 m aos 707 see e42 ee4 m ano aio ao a o aloosAsses sa o aRioeER 2ao RooxsPes2aces 9220%1 TasNFuRescooser 72 co4e a er-smexadi+arums-Popauseaassavsneswisas 1792 7041924 esa 1992 294 e72 422 Taa 1970 lie sia laae 775 les 2eee 27ao ese 1904 28 asi 175 14a 2ae saa e7e o ear mal ase 442 ase ano eso Tav vee 92 es esa ee2 aas ao2 20s o PTasNFuses 77 o ----9 TasNFusesonese2 77 coe Po lus-sentomonda4ekvoLo isla issy late17e ese 347 eaa 430 742 ess 95 27a 1860 792 249 2996 aose 1227 lao4 ao ass 59 las 299 vas e o o ao 284 272 seo 2072 aas 095 van zo 04 en 1997 vas 7e or aa 292 a4 2 e GRAce las sooA las et 900.90%o 7e coek Populus sentomonda4ekvoLo+RAs avpass1/2senescap isas 1511 laea lee eas 345 eaa 44 757 694 14 277 lade 7ee 247 2eee 3087 1224 1804 ao 354 50 las 214 73e o o a 07e 134 428 914 2ea 925 see se 92 032 1059 730 34 792 av 2ae e2 e GRAcE 13e soDA lae #1 86.39%e eaolae4 e72 870 134 279 laa 725 19e 2eee 2eae cae 1804 ao 442 293 164 232 e47 e o e ..i-a e--o.e ....u.e ca ...mina es.ama emoamas.v aaelaa4 e4e ses 129 279 9872 740 20e 29ea ao12 99 o 1804 is 49a 9as ice 242 645 e o ....œs.co.gus anna au.y 9)von evom se forteveisa comf«Levdea)Exausagseriescapemestu<aesideia<wTra<mformestertiarytmes. Appendix 4 -Dynamic Stability Results Tables Appendix 4-1 ---Dynamic Stability Results For Aeolus West vs.Aeolus South B E B SECASEP THF OW aul D BusName Area M De atio F oueneveaDeviatio DC Comments tons a tons tons s) 4 5 e wst 14h8 41W 24W 15W 2672.sa 1500 2672 1700 2400 -1203 1681 263 567 682 125 -188 2051 688 541 124 2330 2282 465 2150 110 356 412 230 217 661 6 LEVEL"B"CONTINGENCIES 7 801 Antdine-Populus500kVLine 3Phs 3 0 None None 8 BO1a Antdine-Po ulus 500 kV Line 0 None None 9 801 Antaline -Po ulus 500 kV Line 0 None None 10 BO2 Po ulus-Borah 500 kV Line 3Phs 3 0 None None 11 803 Populus-CedarHillSOOkVLine 3Pbs 3 0 None None 12 BO4 Borah -Mid int 500 kV Line 3Phs 3 0 None None 14 BOS CedarHill-Hemin a 500kVLíne 3Phs 3 0 None None 15 BO7 Mid int-Hemin wa 500kVLine 3Phs 3 0 None None 16 BOS Brder-Poulus345kVLíne 3Phs 3 0 None 4 BRIDGER222.0 60 fbug 59476 4 8293BrdgerbackswingUF-OK 17 B09 Brd r-3MileKnolI345kVLine 3Phs 3 0 None 5 BRIDGER222.0 60 fb 59459 5 8795Brderbackswin UF-OK 18 809a Brder-3MileKnolI345kVLine 0 None 3 BRIDGER322.0 60 fbu 59463 3 7221Brderbackswin UF-OK 19 B090 Brder-3MileKnolI345kVLine 0 None 5 BRIDGER222.0 60 fbu 59443 5 9115Brderbackswin UF-OK 20 810 Populus-Borah#1345kVLine 3Pbs 3 0 None None 21 B11 Po ulus-Borah#2345kVLine 3Phs 3 0 None None 22 B12 Po ulus-Kinport345kVLíne 3Phs 3 0 None None 23 B13 Borah-Kinort345kVLine 3Phs 3 0 None None 24 B14 Borah -Adelade -Midpoint #1 345 kV Line 3Phs 3 0 None None 25 B15 Aeolus-AntalineSODkVLine 3Phs 3 31 508 EASTNRTH69 73 vbul 000229 998%22583 209 107 600 VERNONTP115 73 fbul 14564 600 17.3526B15aAeolus-Antkline500kVLinew/AeolusGenDro 3Phs 3 0 None None 27 B1 Aeolus-Antkline500kVLinew/AeolusGenDro 0 None None 26 B16 Aeolus-MonaSODkVLine 3Pbs 3 0 None None 29 B16a Aeolus -Mona 500 kV +Aeolus Gen Drop (600)3Phs 3 0 None None30B1Aeolus-Mona 500 kV +Aeolus Gen Dro 600)0 None None 31 B17 Heminwa -SummerLake500kVLine 3Phs 3 0 None None 32 3334 LEVEL "C"CONTINGENCIES 37 CO2 Brder-Poulus345kVLines1&2 SLG 3 0 None None 38 CO2aBrkter-Poulus345kVLines1&2w/RAS SLG 3 0 None None 39 CO2bBrder-Poulus345kVLines1&2w/RAS O None None40CO3Brd-r-3MiKnoll+Bri r-Po ulus#1345kVlines SLG 3 0 None None 41 CO3a Brki .r-3MiKnolI+Brid r-Po ulus#1345kVw/RAS SLG 3 0 None None 42 CO3b Bruer-3MíKnolI+Brider-Poulus#1345kVw/RAS O None None 43 CO3cBrder-3MiKnoll+Brider-Poulus#1345kVw/RAS O None None 44 CO4 Brd er-3MiKnolI+Brider-Po ulus#2345kVlines SLG 3 0 None None 45 CO4a Brd er-3MiKnolI+Brider-Po ulus#2345kVwlRAS SLG 3 0 None None 46 CO4b Brd er-3MíKnolI+Brider-Po ulus#2345kVw/RAS O None None 47 CO4e Brd er-3MiKnoll+Brider-Po ulus#2345kVw/RAS O None None48COSBorah-Po ulus 345 kV Lines 1 &2 SLG 3 0 None None 49 COSaBorah-Poulus345kVLines1&2w/RAS SLG 3 0 None None 50 COS Populus-BenLomond345kVLines2&3 SLO 3 0 None None 51 CO6a Populus-BenLomond345kVLines2&3 0 None None 52 CO7 Po ulus-Kin ort +Po ulus-Borah #2 345 kV Lines SLG 3 0 None None 53 COS Po ulus-Borah#2345kV+Treastn-Brad 230kVLines SLG 3 0 None None 54 CO9 Borah-Adelade#2+Borah-Hunt230kVlines SLG 3 0 None None 57 C12 Borah-AdeWMid int#1+MMoint-Adebde#2345kVlines SLG 3 0 None None58C13Midint-Adebide#2345 kV +Borah -Hunt 230 kV lines SLG 3 0 None None 59 C14 Palo Verde Generaton Unks 2 &3 None 0 None None 60 61 62 wst 1-Sh8 4001 2400 2581 1700 2.sa 1700 2561 1602 2400 -1614 1225 227 529 184 127 234 2139 682 482 170 2259 2372 558 2030 64 504 328 189 219 696 63 LEVEL "B"CONTINGENCIES 64 801 Antaline -Po ulus 500 kV Line 3Pbs 3 0 None None 65 BO1a Antdine-Po ulusSDDkVLine 3Phs 3 0 None None66B01Antdine-Po ulus 500 kV Line 3Phs 3 0 None None 67 B02 Po ulus-Borah 500 kV Line 3Phs 3 0 None None 68 803 Populus -Cedar Hill 500 kV Line 3Phs 3 0 None None 69 BO4 Borah -Midpoint 500 kV Line 3Phs 3 0 None None 71 BOS CedarHill-Hemin a-500kVLine 3Phs 3 0 None None 72 BO7 Mid oint-Hemin wa 500kVLine 3Phs 3 0 None None 73 80BBrkier-Poulus345kVLine 3Pbs3 0 None 5 BRIDGER122.0 60fbug59.435 5 9.341BrerbackswingUF-OK 74 B09 Brd r-3MileKnolI345kVLine 3Phs 3 0 None 6 BRIDGER122.0 60 fbt 59.412 6 10.06Brderbackswin UF-OK75B09aBruer-3MileKnolI345kVLíne 3Phs 3 0 None 3 BRIDGER122.0 60 lbu 59.463 3 8.042Bruerbackswin UF-OK 76 BO9e Brder-3MileKnoll345kVLine 3Phs 3 0 None 8 BRDGER122.0 60 fbu 59.403 8 10.19Brderbackswin UF-OK 77 B10 Populus-Borah#1345kVLine 3Phs 3 0 None None 78 B11 Populus-Borah#2345kVLine 3Phs 3 0 None None80B13Borah-Kinort345kVLine 3Phs 3 0 None None 81 B14 Borah-Adelade-Mid int#1345kVLine 3Phs 3 0 None None 82 B15 Aeolus-AntelineSODkVLine 3Pbs 3 37 570 MAGCORP 13.8 65 vbug 0.00000 100.0%7.0958 261 1119 1250 SPRNGCAN 34.5 70 fbug 8.7826 1250 92.29 83 B15a Aeolus-AntelineSODkVLinew/AeolusGenDrop 3Phs 3 0 None None84B1Aeolus-Antaline500kVLínew/AeolusGenDro 3Phs 3 0 None None 85 B16 Aeolus-MonaS00kVLine 3Phs 3 48 1490 MAGCORP 13.8 65 vbu 0.00000 100.0%7.3583 599 1099 None 86 B16e Aeolus -Mona SOO kV +Aeolus Gen Drop (600)3Phs 3 1 None None BLNDL G2Unstabb 87 B1 Aeolus-MonaSODkV+AeolusGenDro (600 3Phs 3 1 None None BLNDLG2Unstabb88B17Hemilwa-SummerLake500kVLine 3Phs 3 0 None None 89 90 91 LEVEL "C"CONTINGENCIES 94 CO2 Brd -r-Po ulus345kVLines1&2 SLG 3 0 None None 95 CO2aBrd .r-Poulus345kVLines1&2w/RAS SLG 3 0 None None 96 CO2b Bru er-Po ulus 345 kV Línes 1 8 2 w/RAS SLO 3 0 None None 97 CO3 Brder-3MiKnoll+Brider-Poulus#1345kVlines SLG 3 0 None None98CO3aBrder-3MiKnolI+Brider-Poulus#1345kVw/RAS SLG 3 0 None None 99 CO3bBruer-3MiKnolI+Brider-Poulus#1345kVwlRAS SLG 3 0 None None 100 CO3c Bruer-3MíKnolI+Brider-Poulus#1345kVw/RAS SLG 3 0 None None 101 CO4 Brd er-3MiKnoll+Brider-Po ulus#2345kVlines SLG 3 0 None None102CO4aBrd-r-3MiKnoll+Bri r-Po ulus#2345kVw/RAS SLG 3 0 None None 103 CO4b Brd .r-3MiKnolI+Brid r-Po ulus#2345kVw/RAS SLG 3 0 None None 104 C04c Brd er-3MíKnolI+Brider-Po ulus#2345kVw/RAS SLO 3 0 None None 105 COS Borah-Poulus345kVLines1&2 SLG 3 0 None None106CO5aBorah-Po ulus 345 kV Lines 1 &2 w/RAS SLG 3 0 None None 107 CO6 Poulus-BenLomond345kVLines2&3 SLG 3 0 None None 108 COSa Populus -Ben Lomond 345 kV Lines 2 &3 SLG 3 0 None None 109 CO7 Poulus-Kinort+Poulus-Borah#2345kVLines SLG 3 0 None None110COSPoulus-Borah#2345kV+Treastn-Brad 230kVLines SLG 3 0 None None 111 CO9 Borah-Adelade#2+Borah-Hunt230kVlines SLG 3 0 None None 114 C12 Bora AdeWMid int#1+MM int-Adebbe#2345kVlines SLO 3 0 None None 115 C13 Mid int-Adebide#2345kV+Borah-Hunt230kVlines SLG 3 0 None None116C14PaloVerdeGeneratunUnds2&3 None 0 None None Appendix4-2 Pg.1 ---Dynamic Stability Results For Aeolus West vs.Bonanza West BASECASE PATH FO FauK Bus N e AreaVoltaaeDnsDe o me B N recuenAcreaDeviae e e Comments 4 || 5 ||egwstgi-8h6 1526.750 2672.sas 1551 2672 1694 2397 -1337 1549 283 588 543 133 -198 2140 750 620 132 2996 2173 355 2140 96 504 368 207 216 693 6 |LEVEL"B"CONTINGENCIES 7 |BO1 |Anticline-PopulusSOOkVLine 3Phs 3 0 None None 8 |BO1a|Anticline-Populus500kVLine |||||||||||||||||||3Phs|3 0 None||||||||None | 9 |B019|Anticline-Populus500kVLine |||||||||||||||||||3Phs|3 0 None||||||||None | 10 |BO2 |Populus-Borah500kVLine |||||||||||||||||||3Phs|3 O None||||||||None |11|BO3|Populus-CedarHill500kVLine |||||||||||||||||||3Phs|3 ONone||||||||None | 12 |BO4 |Borah-Midpoint500 kV Line |||||||||||||||||||3Phs |3 0 None ||||||||None |14|BO6|CedarHill-Hemingway500kVLine |||||||||||||||||||3Phs|3 ONone||||||||None |15|BO7|Midpoint-HemingwaySOOkVLine |||||||||||||||||||3Phs|3 ONone||||||||None 16 |BOS |Brktger-Populus 345 kV Line |||||||||||||||||||3Phs |3 0 None ||||||||4 BRIDGER2 22.0 |60 fbug |SS 472 4 |8 39 Budger backswing UF -OK 17 |BO9 |Brktger-3MileKnoll345 kV Line |||||||||||||||||||3Phs |3 0 None ||||||||5 BRIDGER2 22.0 |60 fbug |59 444 5 |9 12 Bridger backswing UF -OK 18 |B09a |Brktger-3MiklKnoll345 kV Line |||||||||||||||||||3Phs |3 0 None ||||||||3 BRIDGER322.0 |60 fbug |59 480 3 |7 324 Budger backswing UF -OK 19 |BO9c |Brkiger -3MileKnoll 345 kV Line |||||||||||||||||||3Phs |3 O None ||||||||5 BRIDGER222.0 |60 fbug |59 437 5 |9236 Budger backswing UF -OK20|B10|Populus-Borah#1345kVLine |||||||||||||||||||3Phs|3 ONone||||||||None21|B11|Populus-Borah#2345kVLine |||||||||||||||||||3Phs|3 ONone||||||||None22|B12|Populus-Kinport345kVLine |||||||||||||||||||3Phs|3 ONone||||||||None23|B13|Borah-Kinport345kVLine |||||||||||||||||||3Phs|3 ONone||||||||None 24 |B14 |Borah-Adelaide-Midpoint#1345kVLine 3Phs 3 0 None None 25 |B15 |Aeolus-Anticline500kVLine 3Phs 3 34 519 PODOLAK 115 73 vbul 0.00543 99.5%4.1708 227 291.1 1129 SIDNEYDC 230 73 fbug 24233 1129 13626|B15a|Aeolus-Anticline500kVLinew/AeolusGenDrop 3Phs 3 0 None None27|B15g|Aeolus-Anticline500kVLinew/AeolusGenDrop 3Phs 3 O None None 28 |B16 |Aeolus-Mona 500 kV Line 3Phs 3 0 2 ANTICLIN 500 65 vbus 0.786215 26.3%1.6583 2 23.47 None29|B16a|Aeolus-Mona500kV+AeolusGenDrop(500)3Phs 3 0 None None 30 |B16g |Aeolus-Mona 500 kV +Aeolus Gen Drop (500)3Phs 3 0 None None 31 |B17 |Hemingway-SummerLake500kVLine 3Phs 3 O None None 32 ||33 |LEVEL"C"CONTINGENCIES |||||||||||||||||||||||||||36 |CO2 |Bruger -Populus 345 kV Lines 1 &2 |||||||||||||||||||SLG |3 0 None ||||||||None 37 |CO2a |Brklger -Populus 345 kV Lines 1 &2 wl RAS |||||||||||||||||||SLG |3 O None ||||||||None 38 |CO2b |Bruger -Populus 345 kV Lines 1 &2 w/RAS |||||||||||||||||||SLG |3 0 None ||||||||None 39 |CO3 |Brdger-3MiKnoll +Budger-Populus #1 345 kV lines |||||||||||||||||||SLG |3 0 None ||||||||None 40 |CO3a |Brkiger-3MiKnoll +Budger-Populus #1 345 kV w/RAS |||||||||||||||||||SLG |3 0 None ||||||||None 41 |CO3b |Brktger-3MiKnoll +Bddger-Populus #1 345 kV wl RAS |||||||||||||||||||SLG |3 O None ||||||||None 42 |CO3c |Brkiger-3MiKnoll +Budger-Populus #1 345 kV wl RAS |||||||||||||||||||SLG |3 0 None ||||||||None 43 |CO4 |Brktger-3MiKnoll +Bddger-Populus #2 345 kV lines |||||||||||||||||||SLG |3 0 None ||||||||None |44 |CO4a |Brkiger-3MiKnoll +Budger-Populus #2 345 kV w/RAS |||||||||||||||||||SLG |3 0 None ||||||||None | 45 |CO4b |Brklger-3MiKnoll +Bddger-Populus #2 345 kV wl RAS |||||||||||||||||||SLG |3 O None ||||||||None 46 |CO4e |Brktger-3MiKnoll +Budger-Populus #2 345 kV w/RAS SLG 3 0 None None 47 |COS |Borah-Populus 345 kV Lines 1 &2 SLG 3 0 None None 48 |CO5a |Borah-Populus 345 kV Lines 1 &2 wl RAS SLG 3 0 None None 49 |CO6 |Populus-Ben Lomond 345 kV Lines 2 &3 SLG 3 O None None 50 |CO6a |Populus-Ben Lomond 345 kV Lines 2 &3 SLG 3 0 None None 51 |CO7 |Populus-Kinport +Populus-Borah #2 345 kV Lines SLG 3 0 None None 52 |COB |Populus-Borah #2 345 kV +Treastn-Brady 230 kV Lines SLG 3 0 None None 53 |CO9 |Borah-Adelaide#2+Borah-Hunt230kVlines SLG 3 O None None 56 |C12 |Borah-Adel-Midpoint #1 +Midpoint-Adelaide#2 345 kV lir es SLG 3 0 None None 57 |C13 |Midpoint-Adelaide#2345kV+Borah-Hunt230kVlines SLG 3 0 None None 58 |C14 |Pak>Verde GenerationUnits 2 &3 None 0 None None 59 | Appendix4-2 Pg.2 ---Dynamic Stability Results For Aeolus West vs.Bonanza West BASECASE PATH FLOWS Fault Voltage Deviations Frequency Deviations 4 || 5 ||egwstgi-Sh4 4055...2384 1591 784 2666.sas 1591 2666 1672 2383 -1492 1384 352 659 367 127 -221 2091 785 639 145 2265 2479 660 2103 84 504 370 209 6 |LEVEL "B"CONTINGENCIES 7 |BO1 |Anticline-Populus500kVLine 3Phs 3 O None None 8 |BO1a |Anticline-Populus 500 kV Line |||||||||||||||||||3Phs |3 O None ||||||||None 9 |BO1g |Anticline-Populus 500 kV Line |||||||||||||||||||3Phs |3 O None ||||||||None 10 |BO2 |Populus-Borah 500 kV Line |||||||||||||||||||3Phs |3 0 None ||||||||None11|BO3|Populus-CedarHill500kVLine |||||||||||||||||||3Phs|3 ONone||||||||None 12 |BO4 |Borah-Midpoint500 kV Line |||||||||||||||||||3Phs |3 0 None ||||||||None14|BO6|CedarHill-Hemingway500kVLine |||||||||||||||||||3Phs|3 ONone||||||||None |15|BO7|Midpoint-Hemingway500kVLine |||||||||||||||||||3Phs|3 ONone||||||||None | 16 |BOS |Brktger -Populus 345 kV Line |||||||||||||||||||3Phs |3 O None ||||||||5 BRIDGER222.0 |60 fbug |59 454 5 17 |BOS |Brkiger -3MibKnoll 345 kV Line |||||||||||||||||||3Phs |3 0 None ||||||||5 BRIDGER222.0 |60 fbug |59 431 5 18 |BO9a |Brktger -3MileKnoll345 kV Line |||||||||||||||||||3Phs |3 0 None ||||||||3 BRIDGER322.0 |60 fbug 3 19 |BO9c |Brktger -3MibKnoll 345 kV Line |||||||||||||||||||3Phs |3 0 None ||||||||5 BRIDGER222.0 |60 fbug |59 49 5 UF tven WECC Ex opum 20 |B10 |Populus-Borah#1 345 kV Line |||||||||||||||||||3Phs |3 O None ||||||||None 21|B11|Populus-Borah#2345kVLine |||||||||||||||||||3Phs|3 ONone||||||||None 22 |B12 |Populus-Kinport 345 kV Line |||||||||||||||||||3Phs |3 0 None ||||||||None 23 |B13 |Borah-Kinport 345 kV Line |||||||||||||||||||3Phs |3 0 None ||||||||None 24 |B14 |Borah-Adelaide-Midpoint#1 345 kV Line |||||||||||||||||||3Phs |3 O None ||||||||None 25|B15 |Aeolus-Anticline500kVLine 3Phs 3 35 578 WILDHRSE230 65 vbus 0.00404 996%93457 249 1116 1146 RIVERTON 230 65 fbus 21019 269 130826|B15a|Aeolus-Anticline500kVLinewlAeolusGenDrop 3Phs 3 0 None None27|B15g|Aeolus-Anticline500kVLinewlAeolusGenDrop 3Phs 3 0 None None 28 |B16 |Aeolus-Mona 500 kV Line 3Phs 3 O 185 ANTICLIN 500 65 vbus 0.72651 32 0%1 7333 185 31.2 None Bonanza OELtrips disabled 29 |B16a |Aeolus-Mona 500 kV +Aeolus Gen Drop (600)3Phs 3 0 None None 30 |B16g |Aeolus-Mona 500 kV +Aeolus Gen Drop (600)|3Phs 3 0 None None 31 |B16x |Aeolus-Mona 500 kV +Aeolus Gen Drop (600)+Bnza CP 60 MVar 3Phs 3 0 None None 32 |B17 |Hemingway-SummerLake 500 kV Line 3Phs 3 O None None 33 ||34 |LEVEL "C"CONTINGENCIES ||||||||||||||||||||||||||37 |CO2 |Brktger -Populus 345 kV Lines 1 &2 ||||||||||||||||||SLG |3 0 None ||||||||None 38 |CO2a |Brkfger -Populus 345 kV Lines 1 &2 wl RAS |||||||||||||||||||SLG |3 O None ||||||||None 39 |CO2b |Brktger -Populus 345 kV Lines 1 &2 wl RAS |||||||||||||||||||SLG |3 0 None ||||||||None 40 |CO3 |Brktger-3MiKnoll +Budger-Populus#1 345 kV lines |||||||||||||||||||SLG |3 0 None ||||||||None 41 |CO3a |Brkiger-3MiKnoll +Budger-Populus#1 345 kV w/RAS |||||||||||||||||||SLG |3 0 None ||||||||None 42 |CO3b |Brktger-3MiKnoll +Bndger-Populus#1 345 kV wl RAS |||||||||||||||||||SLG |3 O None ||||||||None 43 |CO3c |Brktger-3MiKnoll +Budger-Populus#1 345 kV wl RAS |||||||||||||||||||SLG |3 0 None ||||||||None 44 |CO4 |Brktger-3MiKnoll +Bddger-Populus#2 345 kV lines |||||||||||||||||||SLG |3 0 None ||||||||None 45 |CO4a |Brktger-3MiKnoll +Budger-Populus#2 345 kV w/RAS |||||||||||||||||||SLG |3 0 None ||||||||None 46 |CO4b |Brkfger-3MiKnoll +Bddger-Populus#2 345 kV wl RAS |||||||||||||||||||SLG |3 O None ||||||||None 47 |CO4e |Brktger-3MiKnoll +Budger-Populus#2 345 kV wl RAS |||||||||||||||||||SLG |3 0 None ||||||||None 48 |COS |Borah-Populus 345 kV Lines 1 &2 |||||||||||||||||||SLG |3 0 None ||||||||None 49 |CO5a |Borah-Populus 345 kV Lines 1 &2 wl RAS SLG 3 0 None None 50 |CO6 |Populus-Ben Lomond 345 kV Lines 2 &3 SLG 3 O None None 51 |CO6a |Populus-Ben Lomond 345 kV Lines 2 &3 SLG 3 0 None None 52 |CO7 |Populus-Kinport +PopuluwBorah #2 345 kV Lines SLG 3 0 None None 53 |COS |Populus-Borah #2 345 kV +Treastn-Brady 230 kV Lines SLG 3 0 None None 54 |CO9 |Borah-Adelaide#2 +Borah -Hunt 230 kV lines |||||||||||||||||||SLG |3 O None ||||||||None 57 |C12 |Borah-Adel-Mkipoint #1 +Midpoint-Adelaide #2 345 kV lir es |||||||||||||||||||SLG |3 0 None ||||||||None58|C13|Midpoint-Adelaide#2345kV+Borah-Hunt230kVlines |||||||||||||||||||SLG|3 0 None||||||||None 59 |C14 |PaloVerde GenerationUnits 2 &3 |||||||||||||||||||None |0 None ||||||||None60|||||||||||||||||||||||||||||61 ||egwstni-Sh6...3967..2362 1617 785 2566.sat 1617|2566 1604|2362|-1618 1193|335 |641 160 |128 |-238|2012 785 |626|162|2247|2425 |606 |2203|66 |504 330 |191 |||||||||||62 |BOS |Brktger -Populus 345 kV Line |||||||||||||||||||3Phs |3 0 None ||||||||5 BRIDGER222.0 |60 fbug |59.453 5 |8.794 Bddger backswing UF -OK 63 |B09 |Brktger -3MibKnoll 345 kV Line |||||||||||||||||||3Phs |3 0 None ||||||||5 BRIDGER222.0 |60 fbug |59.428 5 |9.515 Budger backswing UF -OK 64 |BO9a |Brkiger -3MileKnoll 345 kV Line |||||||||||||||||||3Phs |3 O None ||||||||3 BRIDGER122.0 |60 fbug |59.470 3 |7.613 Budger backswing UF -OK65|BO9c|Brkiger-3MibKnolI345kVLine |||||||||||||||||||3Phs|3 0 None||||||||5 BRIDGER222.0 |60 fbug|59.418 5 |9.619BudgerbackswingUF-OK 66 |B15 |Aeolus-Anticline 500 kV Line |||||||||||||||||||3Phs |3 35 577 |KORTES 115 |73 |vbus |0.00273 |99.7%|10.246 |243 1111 |1291 TESORO 13.8 |65 fbug |14.6 1291 |121.6 67|B15a|Aeolus-Anticline500kVLinewlAeolusGenDrop |||||||||||||||||||3Phs|3 1 None||||||||None |68|B15g|Aeolus-Anticline500kVLinew/AeolusGenDrop |||||||||||||||||||3Phs|3 1 None||||||||None |69|B16|Aeolus-MonaSOOkVLine |||||||||||||||||||3Phs|3 1 96|BONANZA24|65|vbug|O.402646|O.60379|11.708|17523.S|None |||BONANZATriponOEL 70|B16a |Aeolus-Mona500kV+AeolusGenDrop(600)|||||||||||||||||||3Phs|3 1 21 |BONANZA 24 |65 |vbug|0.418215|0.58847|11.717|21 523 |None |||BONANZA TriponOEL71|B169 |Aeolus-Mona500kV+AeolusGenDrop(600)|||||||||||||||||||3Phs|3 1 21 |BONANZA 24 |65 |vbug|O.421337|O.58527|11.717|17 520.8|None |||BONANZA TriponOEL 72||||||||||||||||||||||||||||||||| 73 ||egwstg14h6...3911 2369 1565 785 2466.sat 1565|2466 1542|2369|-1566 1192 |294 |599 157 |129 |-237|2080 785 |622|164|2247|2424 |605 |2203|67 |504 331 |191 |||||||||||||| 74 |BO8 |Brktger -Populus 345 kV Line |||||||||||||||||||3Phs |3 0 None ||||||||5 BRIDGER222.0 |60 fbug |59.453 5 |8.794 Bddger backswing UF -OK 75|BOB|Brklger-3MibKnolI345kVLine |||||||||||||||||||3Phs|3 ONone||||||||5BRIDGER222.0|60fbug|59.4285|9.515BudgerbackswingUF-OK 76 |BO9a |Brkiger -3MibKnoll 345 kV Line |||||||||||||||||||3Phs |3 O None ||||||||3 BRIDGER122.0 |60 fbug |59.470 3 |7.613 Bddger backswing UF -OK 77 |BO9e |Brkiger -3MibKnoll 345 kV Line |||||||||||||||||||3Phs |3 0 None ||||||||5 BRIDGER222.0 |60 fbug |59.418 5 |9.619 Budger backswing UF -OK 78 |B15 |Aeolus-Anticline 500 kV Line |||||||||||||||||||3Phs |3 35 577 |KORTES 115 |73 |vbus |0.00273 |100%|10.246 |243 1111 |1291 TESORO 13.8 |65 fbug |14.6 1291 |121.6 79|B15a|Aeolus-Anticline500kVLinewlAeolusGenDrop |||||||||||||||||||3Phs|3 1 None||||||||None 80|B15g|Aeolus-Anticline500kVLinew/AeolusGenDrop |||||||||||||||||||3Phs|3 1 None||||||||None 81|B16 |Aeolus-Mona500kVLine |||||||||||||||||||3Phs|3 1 112 |BONANZA 24 |65 |vbug|O.402646|60%|11.708|108 523.7|None |BONANZA TriponOEL 82 |B16a |Aeolus-Mona 500 kV +Aeolus Gen Drop (600)|||||||||||||||||||3Phs |3 1 21 |BONANZA 24 |65 |vbug |O.418215|59%|11.717 |21 523 |None |||BONANZA Trip on OEL 83 |B16g |Aeolus-Mona 500 kV +Aeolus Gen Drop (600)|||||||||||||||||||3Phs |3 1 21 |BONANZA 24 |65 |vbug |0.421337|59%|11.717 |17 520.8|None |||BONANZA Trip on OEL 85||egwstg18h6...3708323021497...7852266.sat1497|2266 1406|2302|-1671 922|313|618 118|133|-262|2002 785|629|170|2203|2502|681|2203|57|506 307|181||||||||||||||86 |B16 |Aeolus-Mona 500 kV Line |||||||||||||||||||3Phs |3 1 21 |BONANZA 24 |65 |vbug |0.412975|59%|11.708 |17 521.3|None |||BONANZA Trip on OEL 87 |B16a |Aeolus-Mona 500 kV +Aeolus Gen Drop (600)|||||||||||||||||||3Phs |3 1 21 |BONANZA 24 |65 |vbug |O.424311|58%|13.179 |17 433 |None |||BONANZA Trip on OEL 88|B16g |Aeolus-Mona500kV+AeolusGenDrop(600)|||||||||||||||||||3Phs|3 1 21 |BONANZA 24 |65 |vbug|0.424915|58%|13.217|17 430.8|None |||BONANZA TriponOEL 89 ||90 ||egwstgi-Sh4...3514..2279 1463 784 2166.sas 1463 2166 1335 2279 -1690 819 310 615 223 127 -270 1937 785 631 174 2186 2538 717 2203 56 495 299 178 91|B16 |Aeolus-Mona500kVLine 3Phs 3 1 21 BONANZA 24 65 vbug 0.414003 59%11.708 17 521.3 None BONANZA TriponOEL 92 |B16a |Aeolus-Mona 500 kV +Aeolus Gen Drop (600)3Phs 3 1 21 BONANZA 24 65 vbug 0.425513 58%13.254 17 428.5 None BONANZA Trip on OEL 93 |B16g |Aeolus-Mona 500 kV +Aeolus Gen Drop (600)3Phs 3 1 None None Appendix4-3 ---Dynamic Stability Results For Aeolus West vs.Totia IASE CASE PAT FLOWS Fatit Voltaa-=Deviatlois FreguencyEeviatl3ns BA A NCA A Type De atio Area Type 5 egwstgi-8h6..awia 2672 550.sav 1588 2672 1674 2375 -1482 1368 342 649 375 135 -220 2005 710 550 141 2260 2518 700 2103 83 503 381 213 216 695 6 LEVEL"B"CONTINGENCIES 7 BO1 Anticline -Populus 500 kV Line 3Phs 3 0 None None 8 BO1a Anticline-Populus500kVLine 3Phs 3 0 None None 9 BO1g Anticline-Populus500kVLine 3Phs 3 0 None None 10 BO2 Populus-Borah500kVLine 3Phs 3 O None None 11 BO3 Populus-CedarHillSOOkVLine 3Phs 3 0 None None 12 BO4 Borah-Midpoint500kVLine 3Phs 3 0 None None 14 BO6 CedarHill-Hemingway500kVLine 3Phs 3 0 None None 15 BO7 Mkipoint-HemingwaySOOkVLine 3Phs 3 O None None 16 BOS Budger-Populus345kVLine 3Phs 3 0 None 5 BRIDGER2220 60 fbug 59454 5 8772BridgerbackswingUF-OK 17 BOS Bddger-3MileKnoll345kVLine 3Phs 3 0 None 5 BRIDGER2220 60 fbug 59432 5 9481 BridgerbackswingUF-OK 18 BO9a Budger-3MileKnolI345kVLine 3Phs 3 0 None 3 BRIDGER3220 60 fbug 59470 3 7654BridgerbackswingUF-OK 19 BO9c Bddger-3MileKnolI345kVLine 3Phs 3 O None 3 BRIDGER3220 60 fbug 3 9657 - 20 B10 Populus -Borah #1 345 kV Line 3Phs 3 0 None None 21 B11 Populus-Borah#2345kVLine 3Phs 3 0 None None 23 B13 Borah-Kinport345kVLine 3Phs 3 0 None None 24 B14 Borah -Adelaide-Midpoint#1 345 kV Line 3Phs 3 O None None 25 B15 Aeolus-Anteline500kVLine 3Phs 3 39 577 MAGCORP138 65 vbug 000000 100.0%14971 291 1116 1413 SIDNEYDC230 73 fbug 18124 1413 106 26 B15a Aeolus-Antk;Iine500kVLinew/AeolusGenDrop 3Phs 3 0 None None 27 B15g Aeolus-Antaline500kVLinewlAeolusGenDrop 3Phs 3 0 None None 28 B16 Aeolus-Mona500kVLine 3Phs 3 O 166 ANTICLIN 500 65 vbus 072823 318%1.7333 162 3088 None 29 B16a Aeolus-Mona 500 kV +Aeolus Gen Drop (600)3Phs 3 0 None None 30 B16g Aeolus-Mona 500 kV +Aeolus Gen Drop (600)3Phs 3 0 None None 31 B17 Hemingway-SummerLakeS00kVLine 3Phs 3 0 None None 32 33 LEVEL "C"CONTINGENCIES 36 CO2 Budger-Populus 345 kV Lines 1 &2 SLG 3 0 None None 37 CO2a Budger-Populus 345 kV Lines 1 &2 w/RAS SLG 3 0 None None 38 CO2b Bndger-Populus 345 kV Lines 1 &2 wl RAS O None None 39 CO3 Budger-3MiKnolI+Budger-Populus#1345kVlines SLG 3 0 None None 40 CO3a Bddger-3MiKnoll +Bddger-Populus #1 345 kV w/RAS SLG 3 0 None None 41 CO3b Budger-3MiKnolI+Budger-Populus#1345kVw/RAS O None None 42 CO3c Bddger-3MiKnoll+Bddger-Populus#1345kVwlRAS O None None 43 CO4 Budger-3MiKnolI+Budger-Populus#2345kVlines SLG 3 0 None None 44 CO4a Budger-3MiKnolI+Budger-Populus#2345kVw/RAS SLG 3 0 None None 45 CO4b Budger-3MiKnolI+Budger-Populus#2345kVw/RAS O None None 46 CO4c Bndger-3MiKnoll+Bddger-Populus#2345kVwlRAS O None None 47 CO5 Borah -Populus 345 kV Lines 1 &2 SLG 3 0 None None 48 COSa Borah -Populus 345 kV Lines 1 &2 wlRAS SLG 3 0 None None 49 CO6 Populus -Ben Lomond 345 kV Lines 2 &3 SLG 3 0 None None 50 CO6a Populus -Ben Lomond 345 kV Lines 2 &3 O None None 51 CO7 Populus-Kinport +Populus-Borah #2 345 kV Lines SLG 3 0 None None 52 COB Populus-Borah #2 345 kV +Treastn-Brady 230 kV Lines SLG 3 0 None None 53 COS Borah-Adelaide#2+Borah-Hunt230kVlines SLG 3 0 None None 56 C12 Borah-Adeb-Mktpoint#1+Midpoint-Adekskle#2345kV.ines SLG 3 O None None 57 C13 Mkipoint-Adelaide #2 345 kV +Borah -Hunt 230 kV line SLG 3 0 None None 58 C14 Palo Verde Generaton Units 2 &3 None 0 None None 59 Appendix4-4 ---Dynamic Stability Results For Bridger/Anticline West vs.Aeolus South BASECASE PATH FLOWS Fault VoltaaeDeviations Freguency Deviations BCASNE A NNCAME BusN e Area Type Minirnun De ata m Dp BusN e AreaType e Comments 4 5 e st 1-Sh8 4100 2400 1500 2.sa 1499 2596 1700 2400 -1123 1749 189 490 747 130 -177 2046 705 553 127 2357 2133 315 2005 106 504 396 218 216 668 6 LEVEL"B"CONTINGENCIES 7 801 Antkline-Po ulus500kVLine 3Phs 3 0 None None 8 B01a Antaline-PopulusSDOkVLine 3Phs 3 0 None None 9 BO1g Ant line-Populus500kVLine 3Phs 3 0 None None 10 B02 Po ulus-Borah500kVLine 3Phs 3 0 None None 11 BO3 Populus-GedarHill500kVLíne 3Phs 3 0 None None 12 BO4 Borah-MbpointSODkVLine 3Phs 3 0 None None 14 806 CedarHill-Hemin aySODkVLine 3Phs 3 0 None None 15 BO7 Midoint-Heminwa 500kVLine 3Phs 3 0 None None 16 BOS Brder-Poulus345kVLine 3Phs 3 0 None 4 BRIDGER222.0 60 fbu 59479 4 8211Brderbackswin UF-OK 17 B09 Brder-3MibKnolI345kVLine 3Phs 3 0 None 5 BRIDGER222.0 60 fbu 59459 5 8823Brderbackswin UF-OK 18 B09a Brdger-3MibKnolI345kVLine 3Phs 3 0 None 3 BRIDGER322.0 60 fbu 59486 3 7173BrdgerbackswingUF-OK 19 B09c Brder-3MueKnoll345kVLine 3Phs 3 0 None 5 BRIDGER222.0 60 fbu 59448 5 9014Brderbackswin UF-OK20B10Populus-Borah #1 345 kV Line 3Phs 3 0 None None 21 B11 Po ulus-Borah#2345kVLine 3Phs 3 0 None None 22 B12 Populus-Kinort345kVLine 3Phs 3 0 None None 23 B13 Borah-Kinort345kVLine 3Phs 3 0 None None 24 B14 Borah -Adebbe -Md int #1 345 kV Line 3Phs 3 0 None None 25 B15 Aeolus -Anticline 500 kV Line 3Phs 3 29 524 DAVEJOHN 69 65 vbus 0.0005 99 95%7 3958 272 1090 1366 GREATDIV34.5 65 fbul 27 244 1366 123.5 Resolved with 15a 26 B15a Aeolus-Antialine500kVLinew/AeolusGenDrop 3Phs 3 0 None None 27 B15 Aeolus-Anticline500kVLinew/AeolusGenDro 3Phs 3 0 None None 28 B16 Aeolus-Mona500kVLíne 3Phs 3 0 None None 29 B16a Aeolus-Mona500kV+AeolusGenDro 600)3Phs 3 0 None None 30 B17 Heminwa -SummerLake500kVLine 3Phs 3 0 None None 31 32 33 LEVEL"C"CONTINGENCIES 36 CO2 Bru er-Po ulus345kVLínes182 SLO 3 0 None None 37 CO2a Brd er-Po ulus345kVLines1&2 w/RAS SLG 3 0 None None 38 CO2b Brd er -Po ulus 345 kV Lines 1 &2 w/RAS SLG 3 0 None None 39 CO3 Brd er-3MiKnoll+Brd er-Po ulus #1 345 kV lines SLG 3 0 None None 40 CO3aBrder-3MíKnolI+Brder-Poulus#1345kVw/RAS SLG 3 0 None None 41 CO3b Brder-3MiKnolI+Brd r-Poulus#1345kVw/RAS SLG 3 0 None None 42 CO3eBrder-3MiKnolI+Brder-Poulus#1345kVw/RAS SLG 3 0 None None 43 CO4 Brder-3MiKnoll+Brder-Poulus#2345kVlines SLG 3 0 None None 44 CO4aBruer-3MíKnolI+Bruer-Poulus#2345kVw/RAS SLO 3 0 None None 45 CO4b Brd er-3MiKnolI+Brd r-Po ulus#2345kVw/RAS SLG 3 0 None None 46 CO4e Brd er-3MiKnoll+Brd r-Po ulus#2345kVw/RAS SLG 3 0 None None 47 COS Borah-Po ulus345kVLines1&2 SLG 3 0 None None 48 COSa Borah -Po ulus 345 kV Lines 1 &2 w/RAS SLG 3 0 None None 49 CO6 Po ulus-BenLomond345kVLines2&3 SLG 3 0 None None 50 CO6e Po ulus-BenLomond345kVLines283 SLG 3 0 None None 51 CO7 Po ulus-Kin rt+Po ulus-Borah#2345kVLines SLG 3 0 None None 52 COS Po ulus Borah#2345kV+Treastnerad 230kVLínes SLO 3 0 None None 53 CO9 Borah-Adebde#2+Borah-Hunt230kVlines SLG 3 0 None None 56 C12 Borah-AdeWMM oint#1+MM int-Adebde#2345kVlines SLG 3 0 None None 57 C13 Midoint-Adelaide#2345kV+Borah-Hunt230kVline SLG 3 0 None None 58 C14 Palo Verde Generation Units 2 &3 None 0 None None 59 60 61 e wst 14h9 4100 2400 1700 2.sa 1700 2661 1700 2400 1457 1450 226 528 419 129 210 2087 734 604 158 2311 2188 372 2105 76 504 336 193 217 710 62 LEVEL"B"CONTINGENCIES 63 B01 Antaline-Po ulus500kVLine 3Phs 3 0 None None 64 B01a Antaline-Populus500kVLíne 3Phs 3 0 None None 65 BO1 Antaline-Po ulus500kVLine 3Phs 3 0 None None 66 802 Populus-Borah500kVLine 3Phs 3 0 None None 67 BO3 Po ulus-CedarHill500kVLine 3Phs 3 0 None None 68 804 Borah-Md ointSODkVLine 3Phs 3 0 None None 70 BO6 CedarHill-Hemin a 500kVLine 3Phs 3 0 None None 71 807 Midpoint-Hernin wa 500kVLine 3Phs 3 0 None None 72 BOS Brd er-Po ulus345kVLine 3Phs 3 0 None 4 BRIDGER222.0 60 fbu 59.463 4 8.608 73 B09 Brd er-3MíbKnolI345kVLíne 3Phs 3 0 None 6 BRIDGER222.0 60 lbu 59.443 6 9.393 74 B09a Brd er-3MibKnolI345kVLine 3Phs 3 0 None 3 BRIDGER322.0 60 fbu 59.479 3 7.62 75 8090 Brd er-3MneKnoll345kVLine 3Phs 3 0 None 6 BRIDGER222.0 60 fbu 59.427 6 9.659 76 B10 Po ulus -Borah #1 345 kV Line 3Phs 3 0 None None 77 B11 Po ulus-Borah#2345kVLine 3Phs 3 0 None None 78 B12 Populus-Kinort345kVLine 3Phs 3 0 None None 79 B13 Borah-Kinport345kVLine 3Phs 3 0 None None 80 B14 Borah -Adebbe -MM int #1 345 kV Line 3Phs 3 0 None None 81 B15 Aeolus-Antialine500kVLíne 3Phs 3 36 534 WYOMONT230 73 vbul 0.006 99.4%2.0708 233 340.5 1010 TESORO 13.8 65 tbu 6.1444 1010 66.49 82 B15a Aeolus-Anticline500kVLinew/AeolusGenDrop 3Phs 3 60 None None 83 Bis Aeolus-AnticlineSODkVLinew/AeolusGenDrop 3Phs 3 60 None None 84 B16 Aeolus-Mona500kVLine 3Phs 3 45 1363 MAGCORP13.8 65 vbu 0.00000 100.0%8.9332 540 1097 None 65 B16a Aeolus-Mona500kV+AeolusGenDro 600 3Phs 3 0 None None 86 B17 Heminwa -SummerLakeS00kVLine 3Phs 3 0 None None 87 88 89 LEVEL"C"CONTINGENCIES 92 CO2 Brd er-Po ulus345kVLines1&2 SLG 3 0 None None 93 CO2a Brd er -Po ulus 345 kV Lines 1 &2 w/RAS SLG 3 0 None None 94 CO2b Brd er-Po ulus345kVLines1&2 w/RAS SLG 3 0 None None 95 CO3 Brd er-3MiKnoll+Brd er-Po ulus #1 345 kV lines SLG 3 0 None None 96 CO3aBrder-3MiKnoll+Brder-Poulus#1345kVw/RAS SLG 3 0 None None 97 CO3bBruer-3MíKnolI+Bruer-Poulus#1345kVw/RAS SLO 3 0 None None 98 CO3cBrder-3MiKnolI+Brd r-Poulus#1345kVw/RAS SLG 3 0 None None 99 CO4 Brd er-3MiKnoll+Brd r-Po ulus#2345kVlines SLG 3 0 None None 100 C04a Brd er-3MiKnolI+Brder-Po ulus#2345kVw/RAS SLG 3 0 None None101CO4bBrder-3MíKnolI+Brder-Poulus#2345kVw/RAS SLG 3 0 None None 102 CO4e Brd er-3MiKnolI+Brd r-Po ulus#2345kVw/RAS SLG 3 0 None None 103 COS Borah -Po ulus 345 kV Lines 1 &2 SLG 3 0 None None 104 COSa Borah-Populus345kVLines1&2wlRAS SLG 3 0 None None 105 CO6 Populus-BenLornond345kVLines2&3 SLO 3 0 None None 106 CO6a Po ulus-BenLomond345kVLines2&3 SLG 3 0 None None 107 CO7 Po ulus-Kin rt+Po ulus-Borah#2345kVLines SLG 3 0 None None 108 COS Po ulus-Borah#2345kV+Treastn-Brad 230kVLines SLG 3 0 None None 109 009 Borah-Adebde#2+Borah-Hunt230kVlines SLG 3 0 None None 112 C12 Borah-AdeE-MM oint#1+MM int-Adebbe#2345kVlines SLG 3 0 None None113C13Midoint-Adelaide#2345kV+Borah-Hunt230kVline SLG 3 0 None None 114 C14 Palo Verde Generation Units 2 &3 None 0 None None Appendix 4-5 ---Dynamic Stability Results For Bridger/Anticline West vs.Path C Southbound BASECASE PATH FLOWS Fault VoltageDevlations Freguenev Devlations EE BCASNE A NNCAME Bus Name Area Type Minimum De ata ( eme m Bus Name Area Type mu e Comments tions s tions tons s) 4 5 .wat 1-Sh5 -2250 3900 2400 1700 2.sa 1700 2115 1500 2400 2250 421 203 504 545 147 200 2071 695 594 176 2179 2850 1028 1804 47 511 299 185 257 700 6 LEVEL"B"CONTINGENCIES 7 BO1 Antaline-Po ulus500kVLine 3Phs 3 0 None None 8 BO1a Anteline-PopulusSOOkVLine 0 None None 9 B01 Antaline-Po ulus500kVLine 0 None None 10 BO2 Po ulus-Borah500kVLine 3Phs 3 0 None None 11 BO3 Po ulus-CedarHillSODkVLine 3Phs 3 0 None None 12 804 Borah-MdpointSOOkVLine 3Phs 3 0 None None 14 BO6 CedarHill-Heminwa 500kVLine 3Phs 3 0 None None 15 BO7 Midpoint-Hemin wa 500kVLíne 3Phs 3 0 None None 16 BO8 Brder-Poulus345kVLine 3Phs 3 0 None 5 BRIDGER222.0 60 tbu 59454 5 8745Brd .rbackswin UF-OK 17 B09 Brder-3MneKnoll345kVLine 3Phs 3 0 None 5 BRIDGER222.0 60 fbug 59430 5 9468Brd rbackswin UF-OK 18 B09a Brder-3MibKnoll345kVLine 0 None 3 BRIDGER322.0 60 fbu 59483 3 7326Brderbackswin UF-OK 19 B09c Brder-3MibKnolI345kVLine 0 None 5 BRIDGER222.0 60 fbu 59429 5 9478Brderbackswin UF-OK 20 B10 Po ulus -Borah #1 345 kV Line 3Phs 3 0 None None 21 B11 Populus-Borah#2345kVLine 3Phs 3 0 None None 22 B12 Poulus-Kinort345kVLine 3Phs 3 0 None None 23 B13 Borah-Kinport345kVLíne 3Phs 3 0 None None 24 B14 Borah -Adebbe-MM int #1 345 kV Line 3Phs 3 0 None None 25 B15 Aeolus-AnticlineSOOkVLine 3Phs 3 37 553 ALCOVA16.6 73 vbug 0.005 995%51458 235 16.12 1314 MMLV 13.8 70 fbus 23995 1314 96.98Resolvedwith15a 26 B15a Aeolus-Anticline500kVLinew/AeolusGenDro 3Phs 3 0 None None 27 B15 Aeolus -Anticlíne 500 kV Line w/Aeolus Gen Dro O None None 28 B16 Aeolus-MonaSODkVLine 3Phs 3 52 1634 CRCKPST230 65 vbus 0.000 100%49291 1634 913.6 1306 CRCKPST230 65 fbus 0 1306 920.2 29 B16a Aeolus-Mona500kV+AeolusGenDrop(600)3Phs 3 1 1 None Blundel#2Unstabb 30 B16 Aeolus-Mona500kV+AeolusGenDro 600)1 None Blundel#2Unstabb 31 B17 Heminwa -SummerLakeSOOkVLine 3Phs 3 0 None None 32 33 34 LEVEL"C"CONTINGENCIES 37 CO2 Brd er-Po ulus345kVLines1&2 SLG 3 0 None None 38 CO2a Brd er -Po ulus 345 kV Lines 1 &2 w/RAS SLG 3 0 None None 39 CO2b Brd er -Po ulus 345 kV Lines 1 &2 w/RAS O None None 40 CO3 Brd er-3MiKnoll+Brd r-Po ulus #1 345 kV lines SLG 3 0 None None 41 CO3aBrder-3MiKnoll+Brd r-Poulus#1345kVw/RAS SLG 3 0 None None 42 CO3b Brder-3MiKnolI+Brder-Poulus#1345kVw/RAS O None None 43 CO3c Brder-3MíKnolI+Brder-Poulus#1345kVw/RAS O None None 44 CO4 Brd er-3MiKnolI+Brd r-Po ulus#2345kVlines SLG 3 0 None None 45 CO4aBrder-3MiKnolI+Brder-Poulus#2345kVw/RAS SLG 3 0 None None 46 CO4b Brder-3MiKnoll+Brder-Poulus#2345kVw/RAS O None None 47 C04c Bruer-3MíKnolI+Bruer-Poulus#2345kVw/RAS O None None 48 COS Borah -Po ulus 345 kV Lines 1 &2 SLG 3 0 None None 49 COSa Borah -Po ulus 345 kV Lines 1 &2 w/RAS SLG 3 0 None None 50 CO6 Populus-BenLomond345kVLines2&3 SLG 3 0 None None 51 CO6a Populus-BenLomond345kVLines2&3 0 None None 52 CO7 Po ulus-Kin rt+Po ulus-Borah#2345kVLines SLG 3 0 None None 53 COS Po ulus-Borah#2345kV+Treastn-Brad 230kVLines SLG 3 0 None None 54 CO9 Borah-Adebde#2+Borah-Hunt230kVlines SLG 3 0 None None 57 C12 Borah-AdeWMM oint#1+MM int-Adebbe#2345kVlines SLG 3 0 None None 58 C13 Midoint-Adelaide#2345kV+Borah-Hunt230kVlines SLG 3 0 None None 59 C14 PaloVerdeGenerationUnits2&3 None 0 None None 60 61 62 wat 1-Sh5 -1550 4100 2400 1610 643.sa 1610 2404 1700 2400 -1550 1370 336 643 363 123 -225 2134 737 604 134 2264 2490 669 1804 92 504 374 211 219 737 63 LEVEL"B"CONTINGENCIES 64 BO1 Antaline-Po ulusSDOkVLine 3Phs 3 0 None None 65 BO1a Antaline-Populus500kVLine 3Phs 3 0 None None 66 B01 Antaline-Po ulus500kVLine 3Phs 3 0 None None 67 B02 Populus-Borah500kVLíne 3Phs 3 0 None None 68 BO3 Populus-CedarHill500kVLine 3Phs 3 0 None None 69 BO4 Borah-MdpointSOOkVLine 3Phs 3 0 None None 71 BO6 CedarHill-Heminwa 500kVLine 3Phs 3 0 None None 72 807 Midoint-Heminwa 500kVLine 3Phs 3 0 None None 73 BO8 Brder-Poulus345kVLine 3Phs 3 0 None 5 BRIDGER222.0 60 fbu 59.458 5 8.706Brderbackswin UF-OK 74 809 Brder-3MibKnolI345kVLine 3Phs 3 0 None 5 BRIDGER222.0 60 fbu 59.436 5 9.528Brderbackswil UF-OK 75 B09a Brder-3MueKnoll345kVLine 3Phs 3 0 None 3 BRIDGER322.0 60 fbu 59.487 3 7.457Brderbackswin UF-OK 76 B09c Bruer-3MibKnolI345kVLíne 3Phs 3 0 None 5 BRIDGER222.0 60 tbu 59.429 5 9.637Bruerbackswin UF-OK 77 B10 Populus -Borah #1 345 kV Line 3Phs 3 0 None None 76 B11 Populus-Borah#2345kVLine 3Phs 3 0 None None 79 B12 Poulus-Kinort345kVLine 3Phs 3 0 None None 80 B13 Borah-Kin it345kVLine 3Phs 3 0 None None 81 B14 Borah -Adebbe-MM int #1 345 kV Line 3Phs 3 0 None None 82 B15 Aeolus-Anticline500kVLine 3Phs 3 37 537 MALL69 73 vbul 0.00606 99.4%2.0708 235 246.6 1087 TESORO 13.8 65 fbu 8.7064 1087 120.5 83 B15a Aeolus -Anticline 500 kV Line w/Aeolus Gen Dro 3Phs 3 0 None None 84 B15 Aeolus-Antialine500kVLínew/AeolusGenDro 3Phs 3 0 None None 85 B16 Aeolus-Mona500kVLine 3Phs 3 47 1600 CRCKPST230 65 vbus 0.00000 100.0%14.566 1600 1132 None 86 B16a Aeolus-MonaSOOkV+AeolusGenDrop(600)3Phs 3 0 None None 87 B17 Hemin wa -Summer Lake 500 kV Line 3Phs 3 0 None None 86 89 90 LEVEL"C"CONTINGENCIES 93 CO2 Brd er-Po ulus345kVLines1&2 SLG 3 0 None None 94 CO2a Brd er-Po ulus345kVLines1&2 w/RAS SLG 3 0 None None 95 CO2b Brd er-Po ulus345kVLines1&2 w/RAS SLG 3 0 None None 96 CO3 Brd er-3MíKnoll+Brd er-Po ulus #1 345 kV lines SLG 3 0 None None 97 CO3aBrder-3MiKnolI+Brd r-Poulus#1345kVw/RAS SLG 3 0 None None 98 CO3bBrder-3MiKnolI+Brder-Poulus#1345kVw/RAS SLG 3 0 None None 99 CO3cBrder-3MiKnoll+Brder-Poulus#1345kVw/RAS SLG 3 0 None None 100 CO4 Bruer-3MíKnolI+Bruer-Poulus#2345kVlines SLG 3 0 None None 103 CO4cBrder-3MiKnolI+Brder-Poulus#2345kVw/RAS SLG 3 0 None None 104 COS Borah-Populus345kVLines1&2 SLG 3 0 None None 105 COSa Borah -Po ulus 345 kV Lines 1 &2 w/RAS SLG 3 0 None None 106 CO6 Po ulus-BenLomond345kVLines283 SLG 3 0 None None 107 CO6e Populus-BenLomond345kVLines2&3 SLG 3 0 None None 108 007 Po ulus Kin it+Po uluseorah#2345kVLínes SLG 3 0 None None ra Ad d # +5B rah tn 3r0 V2306kVLines G 3 0 ne 113 C12 Borah-Adet-MMoint#1+MM int-Adebde#2345kVlines SLG 3 0 None None 114 C13 Midoint-Adelaide#2345kV+Borah-Hunt230kVlines SLG 3 0 None None 115 C14 PaloVerdeGenerationUnits2&3 None 0 None None Appendlx 4-6 ---Dynamic Stability Results For Bridger /Anticline West vs.Bonanza West -"C CNA N ME BusNoe AreavokaaeonsDe ato rea reaueviatio Comments 4 5 ogwstgi-Sh6410024001502695mav1610 2404 1700 2400|-1550|1370|336|643 363 123|-225|2134|737|604 134|2264 2490|669|1804 92 504 374 211 219|737 e LEvEL"s-coNTINGENciEs i i i i i i i i i ||||| 7 BC1 |Anttiine-Populus600kVLine |||||||||||||3Phs|3 0 None None a 801aAnticline-Populus500kVLine |||||||||||||3Phs|3 0 None None| 9 BC1gAnticline-Populus500kVLine |||||||||||||3Phs|3 0 None None| 10 BC2 Populus-Borah500kVUne |||||||||||||3Phs|3 0 None None| 11 BO3 Populus-CedarHitl600kVLine |||||||||||||3Phs|3 0 None None| 12 804 Barah-MidpointS00kVLine |||||||||||||3Phs|3 0 None None| 14 BO6 CedarHill-HemingwaySOOkVLine |||||||||||||3Phs|3 0 None None| 16 B07 Malpoint-Hemingway500kVLine |||||||||||||3Phs|3 0 None None| 16 BOBBudger-Populus345kVLine |||||||||||||3Phs|3 0 None 4|BRIDGER2220|60|fbug|69478 4 8182BädgerbackswingUF-OK 17 809 Budger-3MileKnd1345kVLine |||||||||||||3Phs|3 0 None 4 |BRIDGER2220 |60 |fbug|59453|4 8862 BudgerbackswingUF-OK 18 Bosa Budger-3MileKnd1345kvLine |||||||||||||3Phs|3 0 None 3 IBRIDGER3220 |60 |fbug|59487|3 7088 BödgerbackswingUF-OK 19 B09c Budger-3MiteKnon345kVLine |||||||||||||3Phs|3 0 None 5 |BRIDGER2220 |60 fbug|59450|5 8947 BudgerbackswingUF-OK 20 B10 Populus-Borah#1346kVLine |||||||||||||3Phs|3 0 None None| 21 B11 Populus-Barah#2345kVUne |||||||||||||3Phs|3 0 None None| 22 B12 Populus-Kinpoñ345kVLine |||||||||||||3Phs|3 0 None None| 23 B13 Borah-Kinport345kVLine |||||||||||||3Phs|3 0 None None| 24 B14 Borah-Adelakle-Mdpoint#1346kVLine |||||||||||||3Phs|3 0 None None| 26 B15 Aeolus-Antdine500kVLine |||||||||||||3Phs|3 33 513 TROWBRDG 115 65 vbul 0.00161 998%6.7583 227 326.2 827 |SIDNEYDC 230 73 fbug 13019 827 91.5426B15aAeolus-Anidine500kVLinew/AeolusGenDrop |||||||||||||3Phs|3 0 None None| 27 B15gAeolus-Anidine500kVLinew/AeolusGenDrop |||||||||||||3Phs|3 0 None None| 28 B16 Aeolus-Mona600 kV Line |||||||||||||3Phs|3 0 None None | 29 B16a Aeolus-Mona500 kV +AeolusGen Drop (600)|||||||||||||3Phs|3 0 None None | 30 B16g Aeolus-Mona500kV+AeolusGenDrop(600)|||||||||||||3Phs|3 0 None None 31 B17 Hemingwav-SummerLake500kVUne |||||||||||||3Phs|3 0 None None 33 LEVELYCONTINGENCIES |||||||||||||3Phs|3 36 C02 Budger-Populus345kVLines1&2 |||||||||||||3Phs|3 0 None None 37 CO2a Bhdger-Populus345kVLines1&2 w/RAS |||||||||||||3Phs|3 0 None None 38 C02b Budger-Populus345kVLines1&2 w/RAS ||||||||||||||0 None None 39 CO3 Bhdger-3MIKnoll+Brklger-Populus#1346kVlines |||||||||||||SLG|3 0 None None|40C03aBudger-3MiKnol1+Bridger-Populus#1345kVw/RAS |||||||||||||SLG|3 0 None None| 41 CO3b Bhdger-3MIKnol1+Bridger-Populus#1345kVw/RAS ||||||||||||||0 None None| 42 C03c Budger-3MiKnolI+Brkiger-Populus#1345kVw/RAS ||||||||||||||0 None None| 43 CO4 Bhdger-3MIKnoll+Brklger-Populus#2346kVlines |||||||||||||SLG|3 0 None None|44C04aBudger-3MiKnol1+Bridger-Populus#2345kVw/RAS |||||||||||||SLG|3 0 None None| 46 CO4b Bhdger-3MIKnol1+Bridger-Populus#2345kVw/RAS ||||||||||||||0 None None| 46 C04c Budger-3MiKnolI+Brkiger-Populus#2345kVw/RAS ||||||||||||||0 None None| 47 COS Barah-Populus345kVUnes1&2 |||||||||||||SLG|3 0 None None|48C05aBorah-Populus345kVUnes1&2w/RAS |||||||||||||SLG|3 0 None None| 49 CO6 Populus-BenLomond345kVLines2&3 |||||||||||||SLG|3 0 None None| 50 C06a Populus-BenLomond346kVLines2&3 ||||||||||||||0 None None| 61 CO7 Populue-Kinport +Populus-Borah #2 346 kV Lines |||||||||||||SLG |3 0 None None | 52 C08 Populus-Borah#2345kV+Treastn rady230kVUnes |||||||||||||SLG|3 0 None None| 53 COS Barah-Adebide#2+Borah-Hunt230kVlines |||||||||||||SLG|3 0 None None| 56 C12 Borah-Add-MMpänt #1 +MMpänt-Adelaide #2 345 kV lines |||||||||||||SLG |3 0 None None | 67 C13 MMpoint-AdefaMe#2346kV+Borah-Hunt230kVlines |||||||||||||SLG|3 0 None None| 58 C14 PaloVerdeGenerationUnits2&3 |||||||||||||None|0 None None se i i i i i i i i i i i i i i i i I 60 ogwstgi-Sh6395224001458785sav 1468 2626 1652 2400|-1409|1373|332|639 366 131|-224|2168|785|647 136|2248|2610|791|1864 96|604|393 219 218|660 | 61 LEvEL,rcoNTINGENciEs i i i i i i i i i i ||||||| 62 BC1 Anticline-Populus500kVLine ||||||||||||||3Phs|3 0 None |None|63B01aAnfeline-Populus500kVLine ||||||||||||||3Phs|3 0 None |None| 64 BC1gAntdine-Populus600kVLine ||||||||||||||3Phs|3 0 None |None| 66 BC2 Populus-Barah500kVUne ||||||||||||||3Phs|3 0 None |None| 66 BO3 Populus-CedarHil1500kVLine ||||||||||||||3Phs|3 0 None |None| 67 B04 Borah-Mulpoint500kVLine ||||||||||||||3Phs|3 0 None |None| 69 BO6 CedarHitl-Hemingway600kVLine ||||||||||||||3Phs|3 0 None |None| 70 BD7 Midpoint-HemingwayS00kVLine ||||||||||||||3Phs|3 0 None |None| 71 BOBBudger-Populus345kVLine ||||||||||||||3Phs|3 0 None |4|BRIDGER2220|60|fbug|59494|4 7.346BödgerbackswingUF-OK 72 B09Budger-3MiteKndl345kVLine ||||||||||||||3Phs|3 0 None |4|BRIDGER2220|60|fbug|59488|4 7.902BudgerbackswingUF-OK 73 B09a Bhdger-3MileKnol 346kVLine ||||||||||||||3Phs|3 0 None |3 |BRIDGER3220 |60 |fbug|69606|3 6.628 BädgerbackswingUF-OK 74 809cBudger-3MileKnd1345kVLine ||||||||||||||3Phs|3 0 None |4 |BRIDGER2220|60|fbug|59471 4 8.154BudgerbackswingUF-OK 75 B10 Populus-Borah#1345kVUne ||||||||||||||3Phs|3 0 None |None| 76 B11 Populus-Borah#2345kVUne ||||||||||||||3Phs|3 E |None|No.csvfile!!!!! 77 B12 Populus-Kinpod346kVLine ||||||||||||||3Phs|3 |None| 78 B13 Barah-Kinpon345kVLine ||||||||||||||3Phs|3 |None| 79 B14 Barah-Adebide-Midpoint#1345kVUne ||||||||||||||3Phs|3 v |None| 80 B15 Aeolus-Anidine500kVLine ||||||||||||||3Phs|3 34 582|FREMONT115 73 vbus 0.00264 99.7%16.846 292 1043|1036|MEDBOW115 73 fbul 24495 1036 748781B16aAeolus-Antdine600kVLinew/AeolusGenDrop ||||||||||||||3Phs|3 1None||None| 82 B15gAeolus-Antdine500kVLinew/AeolusGenDrop ||||||||||||||3Phs|3 1 None||None| 83 B16 Aeolus-Mona500 kV Une ||||||||||||||3Phs|3 1 None ||None |BonanzaOEL tripsdisabled84B16aAeolus-Mona500kV+AeolusGenDrop(600)||||||||||||||3Phs|3 1None||None|BonanzaoELtripsdisabled 85 B16g Aeolus-Mona600 kV +Aeolus GenDrop (600)||||||||||||||3Phs|3 1 None ||None |BonanzaOEL tripsdisabled 86 B17 Hemingway-SummerLake600kVLine ||||||||||||||3Phs|3 0 None||None| 87 Illl Illlllllllll I I I Ill I l ll I Ill Ill se LEvEL c"coNTINGENciEs i i i i i i i i i |||||||||||||||||||||| 91 C02 Budger-Populus345kVLines1&2 ||||||||||||||SLG|3 0 None|||||||None| 92 CO2aBhdger-Populus346kVLines1&2w/RAS ||||||||||||||SLG|3 0 None|||||||None| 93 C02bBudger-Populus345kVLines1&2w/RAS ||||||||||||||SLG|3 0 None|||||||None| 94 CO3 Bhdger-3MIKnol1+Bridger-Populus#1345kVlines ||||||||||||||SLG|3 0 None|||||||None|95C03aBudger-3MiKnolI+Brkiger-Populus#1345kVw/RAS ||||||||||||||SLG|3 0 None|||||||None|96CO3bBhdger-3MIKnoll+Brklger-Populus#1346kVw/RAS ||||||||||||||SLG|3 0 None|||||||None|97C03cBudger-3MiKnol1+Bridger-Populus#1345kVw/RAS ||||||||||||||SLG|3 0 None|||||||None| 98 CO4 Bhdger-3MIKnol1+Bridger-Populus#2345kVlines ||||||||||||||SLG|3 0 None|||||||None|99C04aBudger-3MiKnolI+Brkiger-Populus#2345kVw/RAS ||||||||||||||SLG|3 0 None|||||||None|100CO4bBhdger-3MIKnoll+Brklger-Populus#2346kVw/RAS ||||||||||||||SLG|3 0 None|||||||None|101C04cBudger-3MiKnol1+Bridger-Populus#2345kVw/RAS ||||||||||||||SLG|3 0 None|||||||None| 102 COS Borah-Populus345kVUnes1&2 ||||||||||||||SLG|3 0 None|||||||None|103C05aBorah-Populus346kVLines1&2w/RAS ||||||||||||||SLG|3 0 None|||||||None| 104 CO6 Populus-BenLomond345kVLines2&3 ||||||||||||||SLG|3 0 None|||||||None|105C06aPopulus-BenLomond345kVLines2&3 ||||||||||||||SLG|3 0 None|||||||None| 106 CO7 Populus-Kinport +Populus-Borah #2 345 kV Unes ||||||||||||||SLG |3 0 None |||||||None |107 C08 Populus-Borah#2345kV+Treastn-Brady230kVUnes ||||||||||||||SLG|3 0 None|||||||None|108 CO9 Borah-Adelakle#2+Borah-Hunt230kVlines ||||||||||||||SLG|3 0 None|||||||None| 111 C12 Barab-Adel Midpunt #1 +Midpuntadelaide #2 345 kV lines ||||||||||||||SLG |3 0 None |||||||None |112 C13 Midpoint-Adebide#2345kV+Borah-Hunt230kVlines ||||||||||||||SLG|3 0 None|||||||None| 113 C14 PabVerdeGeneratanUnits2&3 ||||||||||||||None|1 3 |YORKCANY138 10|vbug|O.6729890.43729|14.104 0 |0.149|3 |ROSEBUD116 10 fbus44669 3 9.946YORKCANY13.8Unstable 114 I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I115ogustg14lbs37083230214977852268.sav14972266140623021671|922|313|618118133262|2002|785|629|170|22032502|681|2203|57|506|307181216|622 |116B16Aeolus-Mona500kVUne ||||||||||||||3Phs|3 1 21|BONANZA24 65|vbuge.4129760.69366|11.708 17|521.3|None|BONANZATriponOEL117B16aAeolus-Mona600kV+AeolusGenDrop(600)||||||||||||||3Phs|3 1 21|BONANZA24 66|vbug0.4243110.58241|13.179 17|433|None|BONANZATriponOEL118B16gAeolus-Mona500kV+AeolusGenDrop(600)||||||||||||||3Phs|3 1 21|BONANZA24 65|vbuge.4249160.68181|13.217 17|430.8|None|BONANZATriponOEL 119 C14 PaloVerdeGenerationUnits2&3 ||||||||||||||None|0 None||None|120 I I I I I I I I I I I I I I I I I I121ogwstgi-Sh63630 2268 15197852202.sav 1619 2202 1362 2268 1793|760 |326|631 302 133 286|1968|785|627 183|2170 2684|767|2203 61|482|290 174 220|618 3Phs|3 122 B16g Aeolus-Mona500kV+AeolusGenDrop(600)||||1 21 BONANZA24 65 vbug 0.423926 0.68279 13.142 17 435.3 None BONANZATriponOEL 124 ogwatni-Sh6 35¢3 2267 1419 785 2006.sav 1419 2066 1276 2267 1673 781 286 590 262 128 280 1897|785|630 174 2179 2549 730 2203 54 492 297 177 218|587 3Phs|3125B16g|Aeolus-Mona600 kV +Aeolus GenDrop(600)O None None I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I I Appendix 4-7 ---Dynamic Stability Results For Bridger /Anticline West vs.Path 18 BASECASE PATHFLOWS Fault VoltageDeviations Frequenev Deviations BCASNENASE AME 2 - Area Type Minimum De etio Time T D Area Type e Comments 5 e at 1·8h7 bwisa 4100 2400 1472 337.sa 1472 2604 1700 2400 -1073 1916 197 498 909 -70 -337 1974 678 524 107 2246 2450 633 1804 126 504 414 226 254 684 6 LEVEL"B"CONTINGENCIES 7 BO1 Anteline-Populus 500 kV Line 3Phs 3 0 None None 8 BO1a Antbline-Populus 500 kV Line 3Phs 3 0 None None 9 BO1g Antbline-Populus 500 kV Line 3Phs 3 0 None None 10 BO2 Populus-Borah 500 kV Line 3Phs 3 0 None None 11 BO3 Populus-CedarHilI500kVLine 3Phs 3 0 None None 12 BO4 Borah -Midpoint500 kV Line 3Phs 3 0 None None 14 BO6 CedarHill-Hemingway500kVLine 3Phs 3 0 None None 15 BO7 Mkipoint-Hemingway 500 kV Line 3Phs 3 0 None None 16 BOB Bnder-Poulus345kVLine 3Phs 3 0 None 4 BRIDGER2220 60 lbug 59462 4 8605BddgerbackswingUF-OK 17 BOS Bddger-3MiWKnolI345kVLine 3Phs 3 0 None 5 BRIDGER2220 60 lbug 59450 5 9186BddgerbackswingUF-OK 18 B09a Bddger-3MiWKnolI345kVLine 3Phs 3 0 None 3 BRIDGER2220 60 lbug 59478 3 7614BddgerbackswingUF-OK 19 B09c Bddger-3MiWKnolI345kVLine 3Phs 3 0 None 6 BRIDGER3220 60 lbug 59431 6 9526BddgerbackswingUF-OK 20 B10 Populus-Bomh#1345kVLine 3Phs 3 0 None None 21 B11 Populus-Borah#2345kVLine 3Phs 3 0 None None 22 B12 Populus-Kinport345kVLine 3Phs 3 0 None None 23 B13 Borah-Kinpod345kVLine 3Phs 3 0 None None 24 B14 Borah -Adebide-Mkipoint#1 345 kV Line 3Phs 3 0 None None 25 B15 Aeolus-Anticline500kVLine 3Phs 3 34 637 BUFFALO20 65 vbul 0000993 99.9%8.7457 316 1088 None GLENDO115 73 fbul 23872 868 112.5 26 B15a Aeolus-Anticline500 kV Line w/Aeolus Gen Drop 3Phs 3 0 None None 27 B15g Aeolus-Anticline500 kV Line w/Aeolus Gen Drop 3Phs 3 0 None None 28 B16 Aeolus-Mona500kVLine 3Phs 3 0 None None 29 B16a Aeolus-Mona 500 kV +Aeolus Gen Drop (600)3Phs 3 0 None None 30 B17 Hemin wa -SummerLake 500 kV Line 3Phs 3 0 None None 31 32 LEVEL "C"CONTINGENCIES 35 CO2 Brid er -Po ulus 345 kV Lines 1 &2 SLG 3 0 None None 36 CO2a Brid er -Po ulus 345 kV Lines 1 &2 wl RAS SLG 3 0 None None 37 CO2b Brid er -Po ulus 345 kV Lines 1 &2 wl RAS SLG 3 0 None None 38 CO3 Brid er-3MiKnoll+Brd er-Po ulus #1 345 kV lines SLG 3 0 None None 39 CO3a Brid er-3MiKnoll+Brd er-Po ulus #1 345 kV wl RAS SLG 3 0 None None 40 CO3b Brid er-3MiKnoll+Brd er-Po ulus #1 345 kV wl RAS SLG 3 0 None None 41 CO3c Brid er-3MiKnoll+Brd er-Po ulus #1 345 kV wl RAS SLG 3 0 None None 42 CO4 Brid er-3MiKnoll+Brd er-Po ulus #2 345 kV lines SLG 3 0 None None 43 CO4a Brid er-3MiKnoll+Brd er-Po ulus #2 345 kV wl RAS SLG 3 0 None None 44 CO4b Brid er-3MiKnoll+Brd er-Po ulus #2 345 kV wl RAS SLG 3 0 None None 45 CO4c Brid er-3MiKnoll+Brd er-Po ulus #2 345 kV wl RAS SLG 3 0 None None 46 CO5 Borah-Populus345kVLines1&2 SLG 3 0 None None 47 CO5a Borah-Populus345kVLines1&2w/RAS SLG 3 0 None None 48 CO6 Populus-Ben Lomond 345 kV Lines2 &3 SLG 3 0 None None 49 CO6a Populus-Ben Lomond 345 kV Lines2 &3 SLG 3 0 None None 50 CO7 Po ulus-Kin ort +Po ulus-Borah #2 345 kV Lines SLG 3 0 None None 51 COB Po ulus-Borah #2 345 kV +Treastn-Brad 230 kV Lines SLG 3 0 None None 52 COS Borah -Adebide#2 +Borah -Hunt 230 kV lines SLG 3 0 None None 55 C12 Borah-Adet-MM oint #1 +Mid oint-Adelade #2 345 kV lines SLG 3 0 None None 56 C13 MM oint-Adebide #2 345 kV +Borah -Hunt 230 kV lines SLG 3 0 None None 57 C14 PaloVerdeGeneratk>nUnRS2&3 None 0 None None 58 59 ||l i ll i |||||||||||||||||||||||||||||||lil || Appendix 4-8 ---Dynamic Stability Results For Bridger /Anticline West vs.Monument -Naughton i BASECASEPAtHELoWu Pault i voitageDeviatons i Emauenevueviations BCA A NNCAME dN e Area Type Minimwn De atio Time Cy p BusdN e Area Type Comments tions a tions tions s) 4 5 egwatgi-Sh9 mn 4100 2400 2642 1480 332 492.sa6|LEVEL B"CONTINGENCIES7|B01 Antickine-Populus500kVLine 3Phs 3 0 None None8|BO1aAnticline-Populus500kVLine 3Phs3 0 None None9|BC1g Anticline-Populus500kVLine 3Phs 3 0 None None 10|BC2 Populus-Borah500kVLine 3Phs 3 0 None None 11|B03 Populus-CedarHill500kVLine 3Phs 3 0 None None 12|804 Borah-MidpointSOOkVLine 3Phs 3 0 None None 14|BO6 CedarHill-Hemingway500kVLine 3Phs 3 0 None None15|B07 Midpoint-HemingwayS00kVLine 3Phs 3 0 None None 16|B08 Bridger-Populus345kVLine 3Phs 3 0 None 4 BRIDGER222.0 60 fbug 59488 4 7946BridgerbackswingUF-OK 17|BOS Bridger-3MileKnoll345kVLine 3Phs 3 0 None 4 BRIDGER222.0 60 fbug 59473 4 8.5 BridgerbackswingUF-OK 18|BO9a Bridger-3MileKnoll345kVLine 3Phs 3 0 None 3 BRIDGER322.0 60 fbug 59492 3 6984BridgerbackswingUF-OK19|B09cBridger-3MiteKnoll345kVLine 3Phs3 0 None 4 BRIDGER222.0 60tbug59458 4 8.786BridgerbackswingUF-OK 20|B10 Populus-Borah#1345kVLine 3Phs 3 0 None None 21|B11 Populus-Borah#2345kVLine 3Phs 3 0 None None 22|B12 Populus-Kinport345kVLine 3Phs 3 0 None None 23|B13 Borah-Kinport346kVLine 3Phs 3 0 None None 24|B14 Borah-Adelaide-Midpoint#1345kVLine 3Phs 3 0 None None25|B15 Aeolus-Anticline500kVLine 3Phs 3 34 475 PLATTE34.5 65 vbul 0.004 99.6%8.1083 190 1999 701 SIDNEYDC230 73 fbug 233 701 44.73Resolvedwith15a 26|B15a Aeolus-Anticline500kVLinew/AeolusGenDrop 3Phs 3 0 None None27|B15g Aeolus-Anticline500kVLinew/AeolusGenDrop 3Phs 3 0 None None 28|B16 Aeolus-Mona500kVLine 3Phs 3 0 None None 29|B16a Aeolus -Mona 500kV +Aeolus Gen Drop (600)3Phs 3 0 None None 30|B17 Hemingway-SummerLake500kVLine 3Phs 3 0 None None 31| 32|33|LEVEL"C"CONTINGENCIES 36|CO2 Bridger-Populus345kVLines1&2 SLG 3 0 None None37|C02aBridger-Populus345kVLines1&2w/RAS SLG 3 0 None None 38|CO2b Bridger -Populus 345 kV Lines 1 &2 wl RAS 0 None None 39|CO3 Bridger-3MIKnoll+Bridger-Populus#1346kVlines SLG 3 0 None None40|CO3aBridger-3MIKnoll+Bridger-Populus#1345kVw/RAS SLG 3 0 None None 41|C03b Bridger-3MiKnoll +Bridger-Populus #1 345kV w/RAS 0 None None 42|CO3e Bridger-3MIKnoll +Bridger-Populus #1 345kV w/RAS O None None43|CO4 Bridger-3MIKnoll+Bridger-Populus#2345kVlines SLO 3 0 None None44|CO4aBridger-3MIKnoll+Bridger-Populus#2345kVw/RAS SLG 3 0 None None 45|C04b Bridger-3MiKnoti +Bridger-Populus #2 345kV w/RAS 0 None None 46|CO4e Bridger-3MlKno‡l +Bridger-Populus #2 345kV wl RAS 0 None None 47|CO6 Borah-Populus345kVLines1&2 SLG 3 0 None None 48|CO5a Borah-Populus345kVLines1&2w/RAS SLG 3 0 None None 49|C06 Populus-BenLomond346kVLines2&3 SLG 3 0 None None 50|CO6a Populus-BenLomond345kVLines2&3 0 None None 51|CO7 Populus-Kinport+Populus-Borah#2345kVLines SLO 3 0 None None 52|COS Populus-Borah#2345kV+Treastn-Bradv230kVLines SLG 3 0 None None53|C09 Borah-Adelalde#2+Borah-Hunt230kVlines SLG 3 0 None None 56|C12 Borah-Adel-Midpoint#1+Midpoint-Adelalde#2345kVlines SLG 3 0 None None 67|C13 Midpoint-Adelalde#2346kV+Borah-Hunt230kVlines SLG 3 0 None None 56|C14 PaloVerdeGenerationUnits2&3 None 0 None None 59| 60| 61|egwstgi-Sh9 mn 3971 2650 1482 475 640.sa62|LEVEL"B"CONTINGENCIES63|BC1 Antiatine-PopulusS00kVLine 3Phs 3 0 None None64|B01aAnticline-Populus500kVLine 3Phs3 0 None None65|BO1g Antialine-Populus500kVLine 3Phs 3 0 None None66|BC2 Populus-Borah500kVLine 3Phs 3 0 None None 67|B03 Populus-GedarHil1500kVLine 3Phs 3 0 None None 68|B04 Borah-Midpoint500kVLine 3Phs 3 0 None None 70|BO6 CedarHill-HerningwaySOOkVLine 3Phs 3 0 None None 71|BO7 Midpoint-Hemingway500kVLine 3Phs 3 0 None None72|BGB Bridger-Populus345kVLine 3Phs 3 0 None 4 BRIDGER222.0 60 lbug 59.484 4 8.02 BridgerbackswingUF-OK 73|B09 Bridger-3MileKnoll345kVLine 3Phs 3 0 None 4 BRIDGER222.0 60 fbug 59.460 4 8.7 BridgerbackswingUF-OK 74|BO9a Bridger-3MileKnot|345kVLine 3Phs 3 0 None 3 BRIDGER322.0 60 fbug 59.469 3 7.025BridgerbackswingUF-OK75|B09cBridger-3MileKnoil345kVLine 3Phs3 0 None 5 BRIDGER222.0 60tbug59.454 5 8.844BridgerbackswingUF-OK 76|B10 Populus-Borah#1346kVLine 3Phs 3 0 None None 77|B11 Populus-Borah#2345kVLine 3Phs 3 0 None None 78|B12 Populus-Kinport345kVLine 3Phs 3 0 None None 79|B13 Borah-Kinport345kVLine 3Phs 3 0 None None80|B14 Borah-Adelaide-Midpoint#1345kVLine 3Phs 3 0 None None 81|B15 Aeolus-Anticline500kVLine 3Phs 3 36 485 GUERNSY12.4 73 vbug 0.001 999%11521 218 8188 784 SIDNEYDC230 73 fbug 3.97 784 67.77Resolvedwith15a 82|B15a Aeolus-Anticline500kVLinewlAeolusGenDrop 3Phs 3 0 None None83|B15g Aeolus-Antictine500kVLinew/AeolusGenDrop 3Phs 3 0 None None 84|B16 Aeotus-MonaS00kVLine 3Phs 3 0 None None 85|B16a Aeolus-Mona500kV+AeolusGenDrop(600)3Phs 3 0 None None 86|B17 Hemingway-SummerLake500kVLine 3Phs 3 0 None None 87|88|89|LEVEL C"CONTINGENCIES 92|CO2 Bridger-Populus346kVLines1&2 SLG 3 0 None None93|CO2aBridger-Populus345kVLines1&2w/RAS SLG 3 0 None None 94|C02b Bridger -Populus 345 kV Lines 1 &2 w/RAS 0 None None95|CO3 Bridger-3MIKnoll+Bridger-Populus#1345kVlines SLG 3 0 None None96|CO3aBridger-3MIKnoll+Bridger-Populus#1345kVw/RAS SLO 3 0 None None 97|CO3b Bridger-3MIKnoll +Bridger-Populus #1 345kV w/RAS O None None98|C03c Bridger-3MiKnoti +Bridger-Populus #1 345kV w/RAS 0 None None 99|CO4 Bridger-3MlKno‡l+Bridger-Populus#2345kVlines SLG 3 0 None None##|CO4aBridger-3MIKnoll+Bridger-Populus#2346kVw/RAS SLG 3 0 None None ##|CO4b Bridger-3MIKnoll+Bridger-Populus#2345 kVw/RAS 0 None None ##|C04c Bridger-3MiKnoll +Bridger-Populus #2 345kV w/RAS 0 None None##|COS Borah-Populus345kVLines1&2 SLG 3 0 None None ##|COSa Borah-Populus345kVLines1&2w/RAS SLO 3 0 None None ##|CC6 Populus-BenLomond345kVLines2&3 SLG 3 0 None None##|C06a Populus-BenLomond345kVLines2&3 0 None None ##|CO7 Populus-Kinport+Populus-Borah#2345kVLines SLG 3 0 None None ##|COS Populus-Borah#2346kV+Treastn-Bradv230kVLines SLG 3 0 None None ##|CC9 Borah-Adelalde#2+Borah-Hunt230kVlines SLG 3 0 None None ##|C12 Borah-Adel-Midpoint#1+Midpoint-Adelalde#2345kVlines SLG 3 0 None None##|C13 Midpoint-Adelalde#2345kV+Borah-Hunt230kVlines SLG 3 0 None None ##C14 PaloVerdeGenerationUnits2&3 None 0 None None Appendix 4-9 ---Dynamic Stability Results For Bridger /Anticline West vs.Monument -Naughton BASEUASEPAtHELoWS I hauit voitageDeviations Erequencybeviations BCA A NNCAME dN e Area Type Minimwn De atio me C BLN e kea Type Comments tions a tions tions s) 4 5 egwstg14h9 RF 4100 2400 2638 1492 096 489.sat 6 LEVEL B"CONTINGENCIES 7 B01 Anticline-Populus500kVLine 3Phs 3 0 None None 8 BO1a AntWiine-Populus500kVLine 3Phs 3 0 None None 9 BC1g Anticline-Populus500kVLine 3Phs 3 0 None None 10 B02 |Populus-Borah600kVLine 3Phs 3 0 None None 11 B03 |Populus-CedarHiti500kVLine 3Phs 3 0 None None 12 804 |Borah-MidpointSOOkVLine 3Phs 3 0 None None 14 B06 |CedarHitt-Hemingway500kVLine 3Phs 3 0 None None 15 B07 |Midpoint-HemingwayS00kVLine 3Phs 3 0 None None 16 B08 |Bridger-Populus345kVLine 3Phs 3 0 None 4 BRIDGER222.0 60 fbug 59479 4 8.15 BudgerbackswingUF-OK 17 BOS |Bridger-3MileKnoll345kVLine 3Phs 3 0 None 4 BRIDGER222.0 60 fbug 59459 4 8.7 BädgerbackswinqUF-OK 18 BO9a|Bridger-3MiteKnol‡345kVLine 3Phs 3 0 None 3 BRIDGER322.0 60 fbug 59485 3 7.152BådgerbackswingUF-OK 19 B09c|Bridger-3MiteKnoil345kVLine 3Phs 3 0 None 6 BRIDGER222.0 60 lbug 69447 6 8.979BedgerbackswingUF-OK 20 B10 |Populus-Borah#1345kVLine 3Phs 3 0 None None 21 B11 |Populus-Borah#2345kVLine 3Phs 3 0 None None 22 B12 |Populus-Kinport345kVLine 3Phs 3 0 None None 23 B13 |Borah-Kinpott346kVLine 3Phs 3 0 None None 24 B14 |Borah-Adelaide-Midpoint#1345kVLine 3Phs 3 0 None None 25 B15 |Aeolus-Antichne500kVLine 3Phs 3 34 491 BAIROILS7 65 vbul 0.007 99.6%10.283 216 81.3 711 SIDNEYDC230 73 fbug 10.02 711 57.57Resolvedwith15a 26 B15a|Aeolus-Anticline500kVLinew/AeolusGenDrop 3Phs 3 0 None None 27 B16g|Aeolus-AntialineS00kVLinew/AeolusGenDrop 3Phs 3 0 None None 28 B16 |Aeolus-Mona500<VLine 3Phs 3 0 None None 29 B16a Aeolus -Mona 500 kV +Aeolus Gen Drop (600)3Phs 3 0 None None 30 B17 Hemingway-SummerLake500kVLine 3Phs 3 0 None None 31 32 33 LEVEL"C"CONTINGENCIES 36 CO2 |Bridger-Populus345kVLines1&2 SLG 3 0 None None 37 C02a|Bridger-Populus345kVLines1&2w/RAS SLG 3 0 None None 38 CO2b |Bridger -Populus 345kV Lines 1 &2 wl RAS 0 None None 39 003 |Bridger-3MIKnoll+Bridger-Populus#1346kVlines SLG 3 0 None None40CO3a|Bridger-3MiKnolt+Bridger-Populus#1345kVw/RAS SLG 3 0 None None 41 C03b |Bridger-3MiKnoll +Bridger-Populus#1 345 kV w/RAS 0 None None 42 CO3c |Bridger-3MIKnoll +Bridger-Populus#1 345 kV w/RAS O None None43C04|Bridger-3MIKnoll+Bridger-Populus#2345kVlines SLG 3 0 None None 44 CO4a|Bridger-3MiKnoff+Bridger-Populus#2345kVw/RAS SLG 3 0 None None 45 C04b|Bridger-3MiKno‡i+Bridger-Populus#2345kVw/RAS 0 None None46C04c|Bridger-3MIKnoll +Bridger-Populus#2 345 kV wl RAS 0 None None 47 COS |Borah-Populus345kVLines1&2 SLG 3 0 None None48CO5a|Borah-Populus345kVLines1&2w/RAS SLG 3 0 None None 49 C06 |Populus-BenLomond346kVLines2&3 SLG 3 0 None None 50 CO6a |Populus -Ben Lomond 345 kV Lines 2 &3 0 None None 51 CO7 |Populus-Kinport+Populus-Borah#2345kVLines SLG 3 0 None None 52 COS |Populus-Borah #2 345kV +Treastn-Brady230 kV Lines SLG 3 0 None None 53 009 |Borah-Adetalde#2+Borah-Hunt230kVlines SLG 3 0 None None 56 C12 Borah-AdeWMidpoint#1+Midpoint-Adelaide#2345kViines SLG 3 0 None None 67 C13 Midpoint-Adelalde#2346kV+Borah-Hunt230kVlines SLG 3 0 None None 58 C14 PaloVerdeGenerationUnits2&3 None 0 None None 59 60 61 ogwstg1·8h9 RF 3972 2400 2650 1482 241 640.sa62|LEVEL B"CONTINGENCIES63B01|Antiatine-Populus&00kVLine 3Phs 3 0 None None 64 B01a|Antickine-Populus500kVLine 3Phs 3 0 None None 65 BO1g|Anticiine-Populus500kVLine 3Phs 3 0 None None 66 BC2 |Populus-Borah500kVLine 3Phs 3 0 None None 67 B03 |Populus-GedarHiltS00kVLine 3Phs 3 0 None None 68 B04 |Borah-Midpoint500kVLine 3Phs 3 0 None None 70 BO6 |CedarHiti-Herningwav500kVLine 3Phs 3 0 None None 71 BO7 |Midpoint-Hemingway500kVLine 3Phs 3 0 None None72B08|Bridger-Populus345kVLine 3Phs3 0 None 4 BRIDGER222.0 60tbugSS.475 4 8.273BedgerbackswingUF-OK 73 B09 |Bridger-3MileKnoß345kVLine 3Phs 3 0 None 5 BRIDGER222.0 60 fbug 59.449 5 9.0 BudgerbackswingUF-OK 74 BO9a|Bridger-3MileKnoll345kVLine 3Phs 3 0 None 3 BRIDGER322.0 60 fbug 59.480 3 7.273BudgerbackswingUF-OK 76 B09c|Bridger-3MiteKnolt345kVLine 3Phs 3 0 None 5 BRIDGER222.0 60 fbug 59.441 5 9.105BudgerbackswingUF-OK 76 B10 |Populus-Borah#1346kVLine 3Phs 3 0 None None 77 B11 |Populus-Borah#2345kVLine 3Phs 3 0 None None 78 B12 |Populus-Kinport345kVLine 3Phs 3 0 None None 79 B13 |Borah-Kinport345kVLine 3Phs 3 0 None None 80 B14 |Borah-Adelaide-Midpoint#1345kVLine 3Phs 3 0 None None 81 B15|Aeolus-Anticline500kVLine 3Phs 3 34 494 PLATTE230 65 vbus 0.003 997%7.1333 222 227.2 756 SPRNGCAN230 73 fbut 15.79 756 46.12Resolvedwith15a 82 B15a|Aeolus-Anticiine500kVLinewlAeolusGenDrop 3Phs 3 0 None None 83 B15g|Aeolus-Anticline500kVLinew/AeolusGenDrop 3Phs 3 0 None None 84 B16 |Aeotus-MonaS00kVLine 3Phs 3 0 None None 65 B16a |Aeolus -Mona 500 kV +Aeolus Gen Drop (600)3Phs 3 0 None None 86 B17 Hemingwav-SummerLake500kVLine 3Phs 3 0 None None 87 88 89 LEVEL C"CONTINGENCIES 92 CO2 Bridger-Populus346kVLines1&2 SLG 3 0 None None 93 CO2a Bridger-Populus345kVLines1&2w/RAS SLG 3 0 None None 94 C02b |Bridger -Populus 345kV Lines 1 &2 w/RAS 0 None None95CO3IBridger-3MIKnoll+Bridger-Populus#1345kVlines SLG 3 0 None None 96 CO3alBridger-3MIKnoll+Bridger-Populus#1345kVwlRAS SLG 3 0 None None 97 CO3b |Bridger-3MiKnoti +Bridger-Populus#1 345 kV w/RAS O None None98C03c|Bridger-3MiKno‡i +Bridger-Populus#1 345 kV w/RAS 0 None None 99 004 |Bridger-3MIKnolt+Bridger-Populus#2345kViines SLG 3 0 None None 100 CO4a|Bridger-3MIKnoll+Bridger-Populus#2346kVw/RAS SLG 3 0 None None 101 CO4b |Bridger-3MiKnoll +Bridger-Populus #2 345 kV w/RAS 0 None None 102 C04c |Bridger-3MiKnoll +Bridger-Populus#2 345 kV w/RAS 0 None None103COS|Borah-Populus345kVLines1&2 SLG 3 0 None None 104 COSa lBorah-Populus345kVLines1&2wlRAS SLG 3 0 None None 105 CO6 |Populus-BenLomond345kVLines2&3 SLG 3 0 None None106C06a|Populus -Ben Lomond 345 kV Lines 2 &3 0 None None 107 007 |Populus-Kinport+Populus-Borah#2345kVLines SLG 3 0 None None 108 COS |Populus-Borah #2 346kV +Treastn-Bradv230 kV Lines SLG 3 0 None None 109 CC9 |Borah-Adelaide#2+Borah-Hunt230kVlines SLG 3 0 None None 112 C12 |Borah-Ade Midpoint#1+Midpoint-Adelalde#2345kVlines SLG 3 0 None None113C13|Midpoint-Adelaide#2345kV+Borah-Hunt230kVlines SLG 3 0 None None 114 C14 |PaloVerdeGenerationUnits2&3 None 0 None None 116 Appendix 4-10 ---Dynamic Stability Results For Bridger /Anticline West vs.MSTI 4 | 5 |egwstgi-8h7 |bwc-msti 1496.4100 2400 1502 298.sat 1502 2686 1700 2400 -1248 1750 267 570 2187 127 298 2059 660 501 122 2431 2308 493 1804 113 504 488 253 239 702 6 |LEVEL"B"CONTINGENCIES 7 |BO1 Anticline -Populus 500 kV Line 3Phs 3 0 None None 8 |BO1alAnticline-Populus500kVLine 3Phs 3 0 None None 9 |B01g|Anticline-Populus500kVLine 3Phs 3 0 None None 10 |BO2 |Populus -Borah 500 kV Line 3Phs 3 0 None None 11 |BO3 |Populus -Cedar Hill 500 kV Line 3Phs 3 0 None None 12 |BO4 (Borah -Midpoint 500 kV Line 3Phs 3 1 None None14|BO6 |CedarHill-HemingwayS00kVLine 3Phs 3 1 None None 15 |BO7 |Midpoint-Hemingway 500 kV Line 3Phs 3 1 None None16|BOB|Bridger-Populus345kVLine 3Phs3 0 None 5 BRIDGER222.0 60fbug59447 5 9066BridgerbackswingUF-OK17|BOS |Bridger-3MileKnolI345kVLine 3Phs 3 0 None 5 BRIDGER222.0 60 fbug 59443 5 8.2 BridgerbackswingUF-OK18|B09a|Bridger-3MileKnolI345kVLine 3Phs 3 0 None 3 BRIDGER322.0 60 fbug 59462 3 1433BridgerbackswingUF-OK19|B09c|Bridger-3MileKnolI345kVLine 3Phs 3 0 None 6 BRIDGER222.0 60 fbug 59434 6 9666BridgerbackswingUF-OK 20 |B10 |Papulus -Borah #1 345 kV Line 3Phs 3 0 None None 21 |B11 Populus -Borah #2 345 kV Line 3Phs 3 0 None None 22 |B12 |Populus -Kinport 345 kV Line 3Phs 3 0 None None 23|B13 Borah-Kinport345kVLine 3Phs 3 0 None None24|B14 |Borah-Adelaide-Midpunt#1345kVLine 3Phs 3 0 None None25|B15 |Aeolus-Anticline500kVLine 3Phs 3 58 633 CASPERLM115 73 vbul 00054 995%99986 381 1105 1440 SC11512.47 65 fbul 015 1440 294 Resolvedwith15a26|B15a|Aeolus-Anticline500kVLinew/AedusGenDrop 3Phs 3 0 None None 27 |B15g |Aeolus -Anticline 500 kV Line wl AedusGen Drop 0 None None 28 |B16 Aeolus -Mona 500 kV Line 3Phs 3 0 None None 29 |B16a Aeolus -Mona 500 kV +Aeolus Gen Drop (600)3Phs 3 0 None None30|B17 Hemingway-SummerLake500kVLine 3Phs 3 0 None None 31|32| 33 |LEVEL"C"CONTINGENCIES 36 |CO2 |Bridger-Populus 345 kV Lines 1 &2 SLG 3 0 None None 37 |CO2a |Bridger-Populus 345 kV Lines 1 &2 w/RAS SLG 3 0 None None38|CO2b|Bridger-Populus345kVLines1&2w/RAS SLG 3 0 None None 39 |CO3 |Bridger-3MiKnoll+Bridger-Populus#1345 kV lines SLG 3 0 None None40|CO3a|Bridger-3MiKnolI+Bridger-Populus#1345kVw/RAS SLG 3 0 None None41|CO3b|Bridger-3MiKnolI+Bridger-Populus#1345kVwlRAS SLG 3 0 None None 42 |CO3c |Bridger-3MiKnoll+Bridger-Populus#1345 kV wi RAS SLG 3 0 None None43|CO4 |Bridger-3MiKnolI+Bridger-Populus#2345kVlines SLG 3 0 None None44|CO4alBridger-3MiKnolI+Bridger-Populus#2345kVw/RAS SLG 3 0 None None45|CO4b|Bridger-3MiKnolI+Bridger-Populus#2345kVw/RAS SLG 3 0 None None 46 |CO4c |Bridger-3MiKnoll+Bridger-Populus#2345 kV w/RAS SLG 3 0 None None47|COS (Borah-Populus345kVLines1&2 SLG 3 0 None None 48 |CO5a |Borah -Populus 345 kV Lines 1 &2 wl RAS SLG 3 0 None None 49 |CO6 |Populus -Ben Lomond 345 kV Lines 2 &3 SLG 3 0 None None 50 |C06a |Populus -Ben Lomond 345 kV Lines 2 &3 SLG 3 0 None None 51 |CO7 |Populus-Kinport+Populus-Borah #2 345 kV Lines SLG 3 0 None None 52|COS |Populus-Borah#2345kV+Treastn-Brady230kVLines SLG 3 0 None None 53 |COS |Borah -Adelaide #2 +Borah -Hunt 230 kV lines SLG 3 0 None None 56 |C12 |Borah-Adel-Midpoint#1 +Midpoint-Adelaide#2 345 kV lines SLG 3 0 None None 57 |C13 Midpoint-Adeklide#2 345 kV +Borah -Hunt 230 kV lines SLG 3 0 None None 58|C14 |PaloVerdeGenerationUnRs2&3 None 0 None None Appendix4-11 Pg.1 ---Dynamic Stability Results For Path C Southbound vs.Idaho -Montana (Path 18) BCASNENASEENNCAYME BASE CASE PA H FLO*VS aul Votaa De la ons Freguency Deviations Comments 4 | 5 |egwstg1-Sh8 pcs 2250 p18 337ts.sav 1661 1569 1632 1890 -2250 256 441 0 297 -724 124 -337 1425 596 190 2996 3176 1314 1804 40 544 317 199 222 612 6 LEVEL "B"CONTINGENCIES 7 BO1 |Anticline-Populus500kVLine 3Phs 3 O None None 8 BO1a|Anticline-Populus500kVLine 3Phs 3 n None None 9 BO1g|Anticline-Populus500kVLine 3Phs 3 NOTSIFeuLTATEC 10 BO2 |Populus-Borah 500 kV Line 3Phs 3 0 None None 11 BO3 |Populus-Cedar Hill 500 kV Line 3Phs 3 0 None None 12 BO4 |Borah -Midpoint 500 kV Line 3Phs 3 0 None None 13 BO6 |Cedar Hill -Hemingway 500 kV Line 3Phs 3 0 None None 14 BO7 |Mkipoint-Hemingway500kVLine 3Phs 3 0 None None 15 BOS |Brdger-Populus345kVLine 3Phs 3 0 None None 16 BOS |Budger-3MibKnoll 345 kV Line 3Phs 3 0 None 4 BRIDGER222.0 60 fbug 59 528 4 6 10926 Bridgerbackswing UF -OK 17 BO9a|Budger-3MibKnolI345kVLine 3Phs 3 N TSIF/ULTATE 18 BO9c |Budger-3MibKnolI345kVLine 3Phs 3 NOTSIF/ULTATE 19 B10 |Populus-Borah #1 345 kV Line 3Phs 3 0 None None 20 B11 |Populus-Borah #2 345 kV Line 3Phs 3 0 None None 21 B12 |Populus-Kinport345kVLine 3Phs 3 0 None None 22 B13 |Borah-Kinport345kVLine 3Phs 3 0 None None 23 B14 |Borah-Adelaide-Midpoint#1345kVLine 3Phs 3 0 None None 24 B15 |Aeolus-Anticline500kVLine 3Phs 3 0 None None 25 B15a|Aeolus-Anticline500kVLinew/AeolusGenDrop 3Phs 3 0 None None 26 B15g|Aeolus-Anticline500kVLinewlAeolusGenDrop 3Phs 3 0 None None 27 B16 |Aeolus-Mona 500 kV Line 3Phs 3 0 None None 28 B16a |Aeolus-Mona 500 kV +Aeolus Gen Drop (600)3Phs 3 0 None None 29 B16d |Aeolus-Mona 500 kV +Aeolus Gen Drop (600)3Phs 3 0 None None 30 B16g |Aeolus-Mona 500 kV +Aeolus Gen Drop (600)3Phs 3 0 None None 31 B17 |Hemingway-SummerLake500kVLine 3Phs 3 0 None None 32 | 33 | 34 LEVEL "C"CONTINGENCIES 35 CO1 |Anticline-Populus 500 kV Lines 1 &2 36 C01a |Anticline-Populus 500 kV Lines 1 &2 w/RAS 37 CO2 |Bddger-Populus345kVLines1&2 SLG 3 0 None None 38 CO2a|Bddger-Populus345kVLines1&2w/RAS SLG 3 0 None None 39 CO2b|Bddger-Populus345kVLines1&2w/RAS SLG NOTSlhilJLT^TE 40 CO3 |Bddger-3MiKnolI+Bddger-Populus#1345kVlines SLG 3 0 None None 41 CO3a|Bddger-3MiKnoll+Bddger-Populus#1345kVw/RAS SLG 3 0 None None 42 CO3b|Bddger-3MiKnolI+Bddger-Populus#1345kVw/RAS SLG 3 0 None None 43 CO3c|Bddger-3MiKnoll+Bddger-Populus#1345kVw/RAS SLG NOTSlhilJLT^TE 44 CO3d|Bddger-3MiKnolI+Bddger-Populus#1345kVw/RAS SLG 3 0 None None 45 CO3e|Bddger-3MiKnoll+Bddger-Populus#1345kVw/RAS SLG 3 0 None None 46 CO4 |Bddger-3MiKnolI+Bddger-Populus#2345kVlines SLG 3 0 None None 47 CO4a|Bddger-3MiKnoll+Bddger-Populus#2345kVw/RAS SLG 3 0 None None 48 CO4b |Bddger-3MiKnoll +Bddger-Populus #2 345 kVwl RAS SLG 3 0 |None ||||||None |49 CO4c|Bddger-3MiKnoll+Bddger-Populus#2345kVw/RAS SLG 3 NOTSlhilJLT^TE 50 CO4d|Bddger-3MiKnolI+Bddger-Populus#2345kVw/RAS SLG 3 0 None None 51 CO4e|Bddger-3MiKnoll+Bddger-Populus#2345kVw/RAS SLG 3 0 None None 52 CO5 |Borah -Populus345 kV Lines 1 &2 SLG 3 0 None None 53 COSa |Borah -Populus345 kV Lines 1 &2 w/RAS SLG NOT StMULTATED 54 CO6 |Populus-BenLomond345kVLines2&3 SLG 55 CO6a |Populus-Ben Lomond345 kV Lines 2 &3 SLG NOT StMULTATED 56 CO7 |Populus-Kinport +Populus-Borah #2 345 kV Lines SLG 3 0 None None 57 COB |Populus-Borah #2 345 kV +Treastn-Brady 230 kV Lines SLG 3 0 None None 58 CO9 |Borah-Adelaide#2+Borah-Hunt230kVlines SLG 3 0 None None 59 C12 |Borah-Adel-Midpoint #1 +Midpoint-Adelaide #2 345 kV lines SLG 3 0 None None 60 C13 |Mbpoint-Adelade#2345kV+Borah-Hunt230kVlines SLG 3 0 None None 61 C14 |Palo Verde GenerationUnits 2 &3 None||0 None None Appendix 4-11 Pg.2 ---Dynamic Stability Results For Path C Southbound vs.Idaho -Montana (Path 18) BCASNENASEENNCAYME BASE CASE PA H FLOWS ault Votaa De latons Freguency Deviations Comments 4 | 5 |egwstg1-Sh8 pcs 2250 p18 285ts.sav 1690 1622 1668 1920 -2250 265 483 0 297 -716 123 -285 1521 629 190 2996 3152 1293 1804 40 538 308 197 223 619 6 LEVEL "B"CONTINGENCIES 7 BO1 |Anticline-Populus500kVLine 3Phs 3 O None None 8 BO1a|Anticline-Populus500kVLine 3Phs 3 n None None 9 BO1g|Anticline-Populus500kVLine 3Phs 3 NOTSIFeuLTATEC 10 BO2 |Populus-Borah 500 kV Line 3Phs 3 0 None None 11 BO3 |Populus-Cedar Hill 500 kV Line 3Phs 3 0 None None 12 BO4 |Borah -Midpoint 500 kV Line 3Phs 3 0 None None 13 BO6 |Cedar Hill -Hemingway 500 kV Line 3Phs 3 0 None None 14 BO7 |Mkipoint-Hemingway500kVLine 3Phs 3 0 None None 15 BOS |Brdger-Populus345kVLine 3Phs 3 0 None None 16 BOS |Budger-3MibKnoll 345 kV Line 3Phs 3 0 None 4 BRIDGER222.0 60 fbug 59 528 4 6 12042 Bridgerbackswing UF -OK 17 BO9a|Budger-3MibKnolI345kVLine 3Phs 3 N TSIF/ULTATE 18 BO9c |Budger-3MibKnolI345kVLine 3Phs 3 NOTSIF/ULTATE 19 B10 |Populus-Borah #1 345 kV Line 3Phs 3 0 None None 20 B11 |Populus-Borah #2 345 kV Line 3Phs 3 0 None None 21 B12 |Populus-Kinport345kVLine 3Phs 3 0 None None 22 B13 |Borah-Kinport345kVLine 3Phs 3 0 None None 23 B14 |Borah-Adelaide-Midpoint#1345kVLine 3Phs 3 0 None None 24 B15 |Aeolus-Anticline500kVLine 3Phs 3 0 None None 25 B15a|Aeolus-Anticline500kVLinew/AeolusGenDrop 3Phs 3 0 None None 26 B15g|Aeolus-Anticline500kVLinewlAeolusGenDrop 3Phs 3 0 None None 27 B16 |Aeolus-Mona 500 kV Line 3Phs 3 0 None None 28 B16a |Aeolus-Mona 500 kV +Aeolus Gen Drop (600)3Phs 3 0 None None 29 B16d |Aeolus-Mona 500 kV +Aeolus Gen Drop (600)3Phs 3 0 None None 30 B16g |Aeolus-Mona 500 kV +Aeolus Gen Drop (600)3Phs 3 0 None None 31 B17 |Hemingway-SummerLake500kVLine 3Phs 3 0 None None 32 | 33 | 34 LEVEL "C"CONTINGENCIES 35 CO1 |Anticline-Populus 500 kV Lines 1 &2 36 C01a |Anticline-Populus 500 kV Lines 1 &2 w/RAS 37 CO2 |Bddger-Populus345kVLines1&2 SLG 3 0 None None 38 CO2a|Bddger-Populus345kVLines1&2w/RAS SLG 3 0 None None 39 CO2b|Bddger-Populus345kVLines1&2w/RAS SLG NOTSlhilJLT^TE 40 CO3 |Bddger-3MiKnolI+Bddger-Populus#1345kVlines SLG 3 0 None None 41 CO3a|Bddger-3MiKnoll+Bddger-Populus#1345kVw/RAS SLG 3 0 None None 42 CO3b|Bddger-3MiKnolI+Bddger-Populus#1345kVw/RAS SLG 3 0 None None 43 CO3c|Bddger-3MiKnoll+Bddger-Populus#1345kVw/RAS SLG NOTSlhilJLT^TE 44 CO3d|Bddger-3MiKnolI+Bddger-Populus#1345kVw/RAS SLG 3 0 None None 45 CO3e|Bddger-3MiKnoll+Bddger-Populus#1345kVw/RAS SLG 3 0 None None 46 CO4 |Bddger-3MiKnolI+Bddger-Populus#2345kVlines SLG 3 0 None None 47 CO4a|Bddger-3MiKnoll+Bddger-Populus#2345kVw/RAS SLG 3 0 None None 48 CO4b |Bddger-3MiKnoll +Bddger-Populus #2 345 kVwl RAS SLG 3 0 |None ||||||None |49 CO4c|Bddger-3MiKnoll+Bddger-Populus#2345kVw/RAS SLG 3 NOTSlhilJLT^TE 50 CO4d|Bddger-3MiKnolI+Bddger-Populus#2345kVw/RAS SLG 3 0 None None 51 CO4e|Bddger-3MiKnoll+Bddger-Populus#2345kVw/RAS SLG 3 0 None None 52 CO5 |Borah -Populus345 kV Lines 1 &2 SLG 3 0 None None 53 COSa |Borah -Populus345 kV Lines 1 &2 w/RAS SLG NOT StMULTATED 54 CO6 |Populus-BenLomond345kVLines2&3 SLG 55 CO6a |Populus-Ben Lomond345 kV Lines 2 &3 SLG NOT StMULTATED 56 CO7 |Populus-Kinport +Populus-Borah #2 345 kV Lines SLG 3 0 None None 57 COB |Populus-Borah #2 345 kV +Treastn-Brady 230 kV Lines SLG 3 0 None None 58 CO9 |Borah-Adelaide#2+Borah-Hunt230kVlines SLG 3 0 None None 59 C12 |Borah-Adel-Midpoint #1 +Midpoint-Adelaide #2 345 kV lines SLG 3 0 None None 60 C13 |Mbpoint-Adelade#2345kV+Borah-Hunt230kVlines SLG 3 0 None None 61 C14 |Palo Verde GenerationUnits 2 &3 None||0 None None Appendix 4-12 Pg.1 ---DynamicStability Results For Path C Southbound vs.Bonanza West 4 | 5 |egwstgi-Sh8 pcs 1849 bw 785ts.sat 1606 1972 1560 2341 -1850 943 586 0 379 -9 128 -279 ###785 155 2996 2636 890 1915 71 300 295 201 228 808 6 LEVEL"B"CONTINGENCIES 7 BO1 |Anticline-PapulusS00kVLine 3Phs 3 0 None None 8 BO1a|Anticline-Populus500kVUne ||||||||||||||||||3Phs 3 0 None None 9 BC1g|Anticline-Populus500kVLine ||||||||||||||||||3Phs\N LlA EE 10 BC2 |Populus-Borah 500 kV Line ||||||||||||||||||3Phs|3 0 |None ||||||||None |||||| 11 BO3 |Populus-CedarHill500kVLine 3Phs 3 0 None None 12 BO4 |Barah-MidpantS00kVLine 3Phs 3 0 None None 13 BO6 |CedarHill-Hemingway500kVUne 3Phs 3 0 None None 14 BO7 |Midpoint-Hemingway500kVLine 3Phs 3 0 None None 15 BOB |Bridger-Populus345kVLine 3Phs 3 0 None 4 BRIDGER222.0 60 lbug 59501 4 7.08929 BridgerbackswingUF-OK 16 BOS |Bridger-3Mik!Knoll 345 kV Line 3Phs 3 0 |None ||||||||4 |BRIDGER222.0 |60 |fbug |59 495 |4 |7.72725 Budger backswing UF -OK 17 BO9a|Bridger-3MileKnolI345kVLine 3Phs N YULlATEE 18 B09c |Brkiger-3MileKnolI345kVUne 3Phs N YI L TATEE 19 B10 |Populus-Borah #1 345 kV Line 3Phs 3 0 |None ||||||||None ||||||20 B11 |Populus-Borah #2 345 kV Line ||||||||||||||||||3Phs|3 0 |None ||||||||None |||||| 21 B12 |Populus-Kinport 345 kV Line ||||||||||||||||||3Phs|3 0 |None ||||||||None ||||||22 B13 |Borah -Kinport 345 kV Line ||||||||||||||||||3Phs|3 0 |None ||||||||None ||||||23 B14 |Borah -Adelaide -Midpoint #1 345 kV Line ||||||||||||||||||3Phs|3 0 |None ||||||||None ||||||24 B15 |Aeolus -Anticline 500 kV Line ||||||||||||||||||3Phs|3 1 |20 |LATHAM34.50 |65 |vbul|0 76492 |26 74 |54 279 20 |54.279|None ||||||25 B15a |Aeolus -Anticline 500 kV Line w/Aeolus Gen Drop ||||||||||||||||||3Phs|3 0 |None ||||||||None ||||||26 B15g |Aeolus -Anticline 500 kV Line w/Aeolus Gen Drop ||||||||||||||||||3Phs|3 0 |None ||||||||None ||||||27 B16 |Aeolus-Mona500kVLine ||||||||||||||||||3Phs|3 1 |22 |BONANZA24.00|65|vbug|04109 |5945|518.82 17 |519.23|None|||||| 28 B16a |Aeolus -Mona 500 kV +Aedus Gen Drop (600)||||||||||||||||||3Phs|3 0 |None ||||||||None ||||||29 B16d |Aeolus -Mona 500 kV +Aedus Gen Drop (600)||||||||||||||||||3Phs|3 0 |None ||||||||None ||||||30 B16g |Aeolus -Mona 500 kV +Aedus Gen Drop (600)||||||||||||||||||3Phs|3 0 |None ||||||||None |||||| 31 B17 |Hemingway-SummerLake500kVUne 3Phs 3 0 None None 32 |33 |34 LEVEL"C"CONTINGENCIES 35 CO1 |Anticline-Populus 500 kV Lines 1 &2 36 C01a |Anticline-Populus 500 kV Unes 1 &2 w/RAS 37 CO2 |Brdger-Populus345kVLines1&2 SLG 3 0 None None 38 CO2a |Bridger-Populus 345 kV Lines 1 &2 w/RAS SLG 3 0 None None 39 CO2b |Bridger -Populus 345 kV Lines 1 &2 wl RAS SLG N SM I 'ME 40 CO3 |Bridger-3MIKnoll+Bridger-Populus #1 345 kV lines SLG 3 0 None None 41 CO3a|Bridger-3MiKnolI+Bridger-Populus#1345kVw/RAS SLG 3 0 None None 42 CO3b |Bridger-3MiKnoll+Bridger-Populus #1 345 kV w/RAS SLG 3 0 Mene Mona 43 CO3c |Bridger-3MiKnoll+Bridger-Populus #1 345 kV w/RAS SLG 3 44 CO3d |Bridger-3MiKnoll+Bridger-Populus #1 345 kV w/RAS SLG 3 0 None None 45 CO3e|Brdger-3MiKnolI+Brdger-Populus#1345kVwlRAS SLG 3 0 None None 46 CO4 |Bridger-3MiKnoll+Bridger-Populus #2 345 kV lines SLG 3 0 None None 47 CO4a |Bridger-3MiKnoll+Bridger-Populus #2 345 kV wl RAS SLG 3 0 None None 48 CO4b |Bridger-3MIKnoll+Bridger-Populus #2 345 kV w/RAS SLG N=I N=I 49 CO4c |Bridger-3MiKnoll+Bridger-Populus #2 345 kV w/RAS SLG NOT s!MULTATED 50 CO4d |Bridger-3MiKnoll+Bridger-Populus #2 345 kV w/RAS SLG 51 CO4e |Bridger-3MiKnoll+Bridger-Populus #2 345 kV w/RAS SLG 52 CO5 |Barah-Populus345kVLines1&2 SLG 53 CO5a |Borah -Populus 345 kV Lines 1 &2 wl RAS SLG NOT stMULTATED 54 CO6 |Populus -Ben Lomond 345 kV Unes 2 &3 SLG 55 CO6a |Populus -Ben Lomond 345 kV Lines 2 &3 SLG NOT SIMULTATED 56 CO7 |Populus-Kinport+Populus-Borah#2345kVLines ||||||||||||||||||SLG|3 0 None None||||||57 COS |Populus-Borah#2 345 kV +Treastn-Brady 230 kV Lines SLG 3 0 None None 58 COS |Borah -Adelaide #2 +Borah -Hunt 230 kV lines SLG 3 0 None None 59 C12 |Borah-Adel-Midpoint#1+Midpunt-Adelaide#2345kVlines SLG 3 0 None None 60 C13 |Midpoint-Adelaide#2 345 kV +Borah -Hunt 230 kV lines SLG 3 0 None None 61 C14 |PaloVerdeGenerationUnRs2&3 None 0 None None Appendix 4-12 Pg.2 ---DynamicStability Results For Path C Southbound vs.Bonanza West 4 5 ogwstgi-Sh8 pcs 2250 bw 749tssas 1728 1798 1468 2227 -2250 351 588 -3 376 -641 128 -280 1863 749 196 2996 3067 1212 1804 36 295 220 169 245 599 6 LEVEL"B"CONTINGENCIES 7 BO1 Anticline-PopulusSO0kVLine 3Phs 3 0 None None 8 BO1a Anticline-Populus500kVLine 3Phs 3 0 None None 9 BO1g Anticline-Populus500kVLine 3Phs 3 MT I L E 10 BC2 Populus-Borah 500 kV Une ||||||||||||||||||||||3Phs|3 |0 |None |||||||None | 11 BO3 Populus-CedarHill500kVLine ||||||||||||||||||||||3Phs|3 |0 |None|||||||None| 12 BO4 Borah -Midpoint 500 kV Line ||||||||||||||||||||||3Phs|3 |0 |None |||||||None | 13 BO6 CedarHill-Hemingway500kVLine 3Phs 3 0 None None 14 BO7 Mkipänt-Hemingway500kVLine 3Phs 3 0 None None 15 BOS Bridger-Populus345kVLine 3Phs 3 0 None 4 BRIDGER222.0 60 fbug 59503 4 7.03461 BridgerbackswingUF-OK 16 BOS Budger-3MileKndl345kVLine 3Phs 3 0 None 4 BRIDGER222.0 60 fbug 59498 4 7.65969 BridgerbackswingUF-OK 17 BO9a Bridger-3MileKndl345kVLine 3Phs 3 M IYLLTATEE 18 B09c Bridger-3MileKndl345kVLine ||||||||||||||||||||||3Phs|3 19 B10 Populus-Borah #1 345 kV Line ||||||||||||||||||||||3Phs|3 |0 |None |||||||None |20 B11 Populus-Borah #2 345 kV Line ||||||||||||||||||||||3Phs|3 |0 |None |||||||None | 21 B12 Populus-Kinport 345 kV Une ||||||||||||||||||||||3Phs|3 |0 |None |||||||None |22 B13 Borah -Kinport 345 kV Line ||||||||||||||||||||||3Phs|3 |0 |None |||||||None |23 B14Borah-Adelaide-Midpoint#1345kVLine ||||||||||||||||||||||3Phs|3|0|None|||||||None| 24 B15 Aedus-Anticline500kVLine ||||||||||||||||||||||3Phs|3 |0 |None|||||||None| 25 B15a Aedus-Anticline500kVLinew/AeolusGenDrop ||||||||||||||||||||||3Phs|3 |0 |None|||||||None| 26 B15g Aedus-Anticline500kVLinew/AeolusGenDrop ||||||||||||||||||||||3Phs|3 |0 |None|||||||None| 27 B16 Aedus-Mona 500 kV Line ||||||||||||||||||||||3Phs|3 |0 |None |||||||None | 28 B16a Aedus-MonaSO0kV+AeolusGenDrop(600)||||||||||||||||||||||3Phs|3 |0 |None|||||||None| 29 B16d Aedus-Mona 500 kV +Aeolus Gen Drop (600)||||||||||||||||||||||3Phs|3 |0 |None |||||||None |30 B16g Aedus-Mona 500 kV +Aeolus Gen Drop (600)||||||||||||||||||||||3Phs|3 |0 |None |||||||None | 31 B17 Hemingway-Summer Lake 500 kV Line ||||||||||||||||||||||3Phs|3 |0 |None |||||||None | 32 |||||||||||||||||||||||||||||||||33 |||||||||||||||||||||||||||||||||34 LEVEL C"CONTINGENCIES |||||||||||||||||||||||||||||||||35 CO1 Antidine-Populus500kVLines1&2 36 C01a Antidine-Populus500kVLines1&2w/RAS 37 CO2 Bridger-Populus345kVLines1&2 SLG 3 0 None None 38 CO2a Budger-Populus345kVLines1 &2 w/RAS SLG 3 0 None None 39 CO2b Bridger-Populus345kVLines1 &2 wl RAS SLG 3 N l blMl l teF 40 CO3 Bridger-3MIKndl+Bridger-Populus#1345kVlines SLG 3 0 None None 41 CO3a Bridger-3MiKndl+Bridger-Populus#1345kVw/RAS SLG 3 0 None None 42 CO3b Bddger-3MiKndl+Bddger-Populus#1345kVw/RAS SLG 3 0 Mona Mona 43 CO3c Bridger-3MiKndl+Bridger-Populus#1345kVw/RAS SLG 3 I SIKl /F 44 CO3d Bridger-3MiKndl+Bridger-Populus#1345kVw/RAS ||||||||||||||||||||||SLG|3 |0 |None|||||||None| 45 CO3e Bridger-3MiKndl+Bridger-Populus#1345kVwlRAS SLG 3 0 None None 46 CO4 Budger-3MiKndl+Budger-Populus#2345kVlines SLG 3 0 None None 47 CO4a Bridger-3MiKndl+Bridger-Populus#2345kVwlRAS SLG 3 0 None None 48 CO4b Bridger-3MIKndl+Bridger-Populus#2345kVw/RAS SLG 3 6 N-"=N= 49 CO4c Bridger-3MiKndl+Bridger-Populus#2345kVw/RAS SLG 3 NOTSMULTATED 50 CO4d Bddger-3MiKndl+Bddger-Populus#2345kVw/RAS SLG 3 51 CO4e Bridger-3MiKndl+Bridger-Populus#2345kVw/RAS SLG 3 52 CO5 Borah-Papulus345kVLines1&2 SLG 3 53 CO5a Borah-Populus345kVUnes1&2wlRAS SLG 3 NOTSlMULTATED 54 CO6 Populus-BenLomond345kVLines2&3 ||||||||||||||||||||||SLG|3 55 CO6a Populus-BenLomond345kVLines2&3 ||||||||||||||||||||||SLG|3 |NOTSMULTATED 56 CO7 Populus-Kinport+Populus-Borah #2 345 kV Lines ||||||||||||||||||||||SLG|3 |0 |None |||||||None |57 COB Populus-Borah #2 345 kV +Treastn-Brady 230 kV Lines ||||||||||||||||||||||SLG |3 |0 |None |||||||None |58 CO9 Borah-Adelaide#2+Borah-Hunt230kVlines ||||||||||||||||||||||SLG|3 |0 |None|||||||None| 59 C12 Borah-Adel-Midpunt#1+Midpoint-Adelaide#2345kVlines SLG 3 0 None None 60 C13 Midpunt-Adelaide#2345kV+Borah-Hunt230kVlines SLG 3 0 None None 61 C14 PaloVerdeGeneratk>nUnits2&3 None 0 None None Appendix 4-13 ---DynamicStability Results For Path C Southbound vs.MSTI Project 4 || 5 ||egwstgidh8 pcs 2250...msts.1500tssav 1701 1773 1450 2199 2251 179 520 0 379 619 133 -150 1805 691 204 2996 3122 1172 1804 26 298 101 215 198 570 6 |LEVEL"B"CONTINGENCIES 7 |BC1 |Anticline-Populus500kVLine 3Phs 3 0 None None 8 |BO1a|Anticline-Populus500kVLine |3Phs 3 0 None None 9 |BO1g|Anticline-Populus500kVLine ||||||||||||||||||||||||3Phs|3 N IMllA 10 |BO2 |Populus -Borah 500 kV Line ||||||||||||||||||||||||3Phs|3 |0 |None |||||||None | 11 |BO3 |Populus -Cedar Hill 500 kV Line ||||||||||||||||||||||||3Phs|3 |0 |None |||||||None | 12 |BO4 |Borah -Midpoint 500 kV Line ||||||||||||||||||||||||3Phs|3 |0 |None |||||||None | 13 |BO6 |CedarHill-Hemingway500kVLine 3Phs 3 0 None None 14 |BO7 |Midpoint-Hemingway 500 kV Line 3Phs 3 0 None None 15 |BOB |Bridger-Populus345kVLine 3Phs 3 0 None None 16 |BOS |Bridger-3MileKnolI345kVLine 3Phs 3 0 None 4 BRIDGER222.0 60 fbug 59524 4 631702 BridgerbackswingUF-OK 17 |B09a|Brkiger-3MileKnolI345kVLine 3Phs 3 18 |B09c|Brkiger-3MileKnolI345kVLine ||||||||||||||||||||||||3Phs|3 19 |B10 |Populus -Borah #1 345 kV Line ||||||||||||||||||||||||3Phs|3 |0 |None |||||||None |20 |B11 |Populus -Borah #2 345 kV Line ||||||||||||||||||||||||3Phs|3 |0 |None |||||||None | 21 |B12 |Populus -Kinport 345 kV Line ||||||||||||||||||||||||3Phs|3 |0 |None |||||||None |22 |B13 |Borah -Kinport 345 kV Line ||||||||||||||||||||||||3Phs|3 |0 |None |||||||None |23 |B14 |Borah -Adelaide -Midpunt#1 345 kV Line ||||||||||||||||||||||||3Phs|3 |0 |None |||||||None |24 |B15 |Aeolus -Anticline 500 kV Line ||||||||||||||||||||||||3Phs|3 |0 |None |||||||None |25|B15a|Aeolus-Anticline500kVLinew/AedusGenDrop ||||||||||||||||||||||||3Phs|3|0|None|||||||None|26|B15g|Aeolus-Anticline500kVLinewlAedusGenDrop ||||||||||||||||||||||||3Phs|3|0|None|||||||None| 27 |B16 |Aeolus -Mona 500 kV Line ||||||||||||||||||||||||3Phs|3 |0 |None |||||||None |28 |B16a |Aeolus -Mona 500 kV +Aeolus Gen Drop (600)||||||||||||||||||||||||3Phs|3 |0 |None |||||||None |29 |B16d |Aeolus -Mona 500 kV +Aeolus Gen Drop (600)||||||||||||||||||||||||3Phs|3 |0 |None |||||||None |30 |B16g |Aeolus -Mona 500 kV +Aeolus Gen Drop (600)||||||||||||||||||||||||3Phs|3 |0 |None |||||||None | 31 |B17 |Hemingway-Summer Lake 500 kV Line ||||||||||||||||||||||||3Phs|3 |0 |None |||||||None |32|||||||||||||||||||||||||||||||||||||33|||||||||||||||||||||||||||||||||||||34 |LEVEL"C"CONTINGENCIES 35 |C01 |Anticline-Populus500kVLines1&2 36 |CO1a |Anticline-Populus 500 kV Lines 1 &2 w/RAS 37 |CO2 |Bridger-Populus345kVLines1&2 SLG 3 0 None None 38 |CO2a|Bridger-Populus345kVLines1&2w/RAS SLG 3 0 None None 39 |CO2b|Bridger-Populus345kVLines1&2w/RAS SLG 3 40 |CO3 |Bridger-3MiKnoll+Bridger-Populus #1 345 kV lines SLG 3 0 None None 41 |CO3a|Bridger-3MiKnolI+Bridger-Populus#1345kVw/RAS SLG 3 0 None None 42 |CO3b|Bridger-3MiKnolI+Bridger-Populus#1345kVw/RAS SLG 3 a Nona Nona 43 |CO3c|Brdger-3MiKnolI+Brdger-Populus#1345kVw/RAS ||||||||||||||||||||||||SLG|3 NOTSiY l.TATE 44|CO3d|Brdger-3MiKnolI+Brdger-Populus#1345kVwlRAS ||||||||||||||||||||||||SLG|3|O|None|||||||None| 45 |CO3e|Bridger-3MiKnolI+Bridger-Populus#1345kVw/RAS SLG 3 0 None None 46 |CO4 |Bridger-3MiKnolI+Bridger-Populus#2345kVlines SLG 3 0 None None 47 |CO4a|Bridger-3MIKnolI+Bridger-Populus#2345kVw/RAS SLG 3 0 None None 48 |CO4b|Bridger-3MiKnolI+Bridger-Populus#2345kVw/RAS SLG 3 n *==*= 49 |CO4c|Bridger-3MiKnolI+Bridger-Populus#2345kVw/RAS SLG 3 NOTSMULTATED 50 |CO4d|Bridger-3MiKnolI+Bridger-Populus#2345kVw/RAS SLG 3 51 |CO4e|Brdger-3MiKnolI+Brdger-Populus#2345kVw/RAS SLG 3 52 |COS |Borah-Populus345kVLines1&2 SLG 3 53 |CO5a|Borah-Populus345kVLines1&2w/RAS SLG 3 NOTSMULTATED 54 |CO6 |Populus -Ben Lomond 345 kV Lines 2 &3 SLG 3 55 |CO6a|Populus-BenLomand345kVLines2&3 SLG 3 NOTSMULTATED 56 |CO7 |Populus-Kinport+Populus-Borah #2 345 kV Lines SLG 3 0 |None ||||||||None |57 |COS |Populus-Borah#2 345 kV +Treastn-Brady230 kV Lines SLG 3 0 |None ||||||||None |58 |COS |Borah-Adelaide#2+Borah-Hunt230kVlines SLG 3 0 None None 59 |C12 |Borah-Adel-Midpoint#1 +Mkipoint-Adelaide#2 345 kV lines SLG 3 0 None None 60 |C13 |Midpoint-Adekikle#2345kV+Borah-Hunt230kVlines SLG 3 0 None None 61 |C14 |PaloVerdeGenerationUnRs2&3 None 0 None None I I Appendix 4-14 ---DynamicStability Results For Path C Southbound vs.Monument -Naughton 5 egwstgi-Sh8 pcs 2250.mn.475 x93sas 1704 1762 1476 1873 2250 32 640 475 760 965 121 -279 1873 722 205 2996 2989 1131 1804 25 423 197 159 233 653 6 LEVEL"B"CONTINGENCIES 7 B01 Anticline-Populus500kVLine 3Phs 3 0 None None 8 B01a Anticline-PopulusSO0kVLine 3Phs 3 0 None None 9 B01g Anticline-Populus500kVLine 3Phs 3 10 BO2 Populus-Borah 500 kV Line ||||||||||||||3Phs|3 |0 |None |||||||None ||| 11 B03 Populus-CedarHill500kVLine ||||||||||||||3Phs|3 |0 |None|||||||None| 12 BO4 Borah -Midpoint 500 kV Line 3Phs 3 0 None None 13 BO6 CedarHill-HemingwaySO0kVLine 3Phs 3 0 None None 14 BO7 Midpunt-Hemingway500kVUne 3Phs 3 0 None None 15 B08 Budger-Populus345kVLine 3Phs 3 0 None 4 BRIDGER222.0 60 fbug 59495 4 7.33503 BrkigerbackswingUF-OK 16 B09 Bridger-3MileKndl345kVLine 3Phs 3 0 Nona 4 BRIDGER222.0 60 fixia 59491 4 7.84311 BridgerbackswingUF-OK 17 BO9aBudger-3MileKndl345kVLine |||||||||||||||3Phs|3 NOTSIV E 18 B09c Bridger-3MileKndl345kVLine |||||||||||||||3Phs|3 50 ATEE 19 B10 Populus-Borah#1345kVUne |||||||||||||||3Phs|3 |0 |None|||||||None| 20 B11 Populus-Borah #2 345 kV Line |||||||||||||||3Phs|3 |0 |None |||||||None |21 B12 Populus-Kinport 345 kV Line |||||||||||||||3Phs|3 |0 |None |||||||None |22 B13 Borah-Kinport345kVUne |||||||||||||||3Phs|3 |0 |None|||||||None| 23 B14 Borah -Adelaide -Mkipoint #1 345 kV Line |||||||||||||||3Phs|3 |0 |None |||||||None |24 B15 Aedus-Antbline500kVLine |||||||||||||||3Phs|3 |0 |3 |LATHAM3450 |65|vbul 0.78404|2308|27833|20 3941|None| 25 B15a Aedus-Anticline500kVLinew/AeolusGenDrop |||||||||||||||3Phs|3 |0 |None|||||||None| 26 B15g Aedus-Anticline500kVLinew/AeolusGenDrop |||||||||||||||3Phs|3 |0 |None|||||||None| 27 B16 Aedus-Mona500kVLine |||||||||||||||3Phs|3 |0 |None|||||||None| 28 B16a Aedus-Mona 500 kV +Aeolus Gen Drop (600)|||||||||||||||3Phs|3 |0 |None |||||||None |29 B16d Aedus-MonaSO0kV+AeolusGenDrop(600)|||||||||||||||3Phs|3 |0 |None|||||||None| 30 B16g Aedus-Mona 500 kV +Aeolus Gen Drop (600)|||||||||||||||3Phs|3 |0 |None |||||||None | 31 B16v Aedus-Mona 500 kV +Aeolus Gen Drop (600)|||||||||||||||3Phs|3 |0 |None |||||||None |32 B17 Hemingway-Summer Lake 500 kV Line |||||||||||||||3Phs|3 |0 |None |||||||None |33 ||||||||||||||||||||||||||34 |||||||||||||||||||||||||| 35 LEVEL C"CONTINGENCIES ||||||||||||||||||||||||||36 CO1 Antidine-Populus500kVLines1&2 37 CO1a Antidine-Populus500kVLines1&2w/RAS 38 CO2 Bridger-Populus345kVLines1&2 SLG 3 0 None None 39 CO2a Budger-Populus345kVLines1 &2 w/RAS SLG 3 0 None None 40 CO2b Bridger-Populus345kVLines1&2 wlRAS SLG 3 N blM l F 41 CO3 Bridger-3MIKndl+Bridger-Populus#1345kVlines SLG 3 v i,s...i,s... 42 CO3a Bridger-3MiKndl+Bridger-Populus#1345kVw/RAS SLG 3 0 None None 43 CO3b Bddger-3MiKndl+Bddger-Populus#1345kVw/RAS SLG 3 0 None None 44 CO3c Bridger-3MiKndl+Bridger-Populus#1345kVw/RAS SLG 3 N IYll l 45 CO3d Bridger-3MiKndl+Bridger-Populus#1345kVw/RAS |||||||||||||||SLG|3 |0 |None|||||||None| 46 CO3e Bridger-3MiKndl+Bridger-Populus#1345kVwlRAS SLG 3 0 None None 47 CO4 Budger-3MiKndl+Budger-Populus#2345kVlines SLG 3 0 None None 48 CO4a Bridger-3MiKndl+Bridger-Populus#2345kVwlRAS SLG 3 0 None None 49 CO4b Bridger-3MIKndl+Bridger-Populus#2345kVw/RAS SLG 3 0 None None 50 CO4c Bridger-3MiKndl+Bridger-Populus#2345kVw/RAS SLG 3 NOTSMULTATED 51 CO4d Bddger-3MiKndl+Bddger-Populus#2345kVw/RAS SLG 3 52 CO4e Bridger-3MiKndl+Bridger-Populus#2345kVw/RAS SLG 3 53 CO5 Borah-Papulus345kVLines1&2 SLG 3 54 CO5a Borah-Populus345kVUnes1&2wlRAS SLG 3 NOTstMULTATED 55 CO6 Populus-BenLomond345kVLines2&3 |||||||||||||||SLG|3 56 CO6a Populus-BenLomond345kVLines2&3 |||||||||||||||SLG|3 |NOTSMULTATED 57 CO7 Populus-Kinport+Populus-Borah #2 345 kV Lines |||||||||||||||SLG|3 |0 |None |||||||None | 58 COB Populus-Borah #2 345 kV +Treastn-Brady 230 kV Lines |||||||||||||||SLG |3 |0 |None |||||||None |59 CO9 Borah-Adelaide#2+Borah-Hunt230kVlines |||||||||||||||SLG|3 |0 |None|||||||None| 60 C12 Borah-Adel-Midpunt#1+Midpoint-Adelaide#2345kVlines SLG 3 0 None None 61 C13 Midpunt-Adelaide#2345kV+Borah-Hunt230kVlines SLG 3 0 None None 62 C14 PaloVerdeGeneratk>nUnits2&3 None 0 None None Appendix 4-15 ---Dynamic Stability Results For Path C Southbound vs.Rock Springs /Firehole West CONTINGENCYI BASEGASE ÑAl LUAS a Vo ateIJe lations Frequency Javiat ns o CommentsBASECASENAMEiii 4 | 6 LEVEL"B"CONTINGEN wetqidh8..pos.2250..rsfh.640 x93.sav 1693 1784 1508 1963 -2250 147 626 334 640 443 128 -279 1876 725 198 2996 2931 1071 1804 32 447 217 166 232 644 7 BC1 |Anticline-Populus500kVUne 3Phs 3 0 None None 8 BO1a|Anticline-Populus500kVLine |||||||||||||||3Phs 3 0 None None 9 BO1g|AnUcline-Populus500kVLine 3Phs 3 N I I A 10 BO2 |Populus-Borah500kVLine 3Phs 3 0 None None 11 BO3 |Populus-CedarHilI500kVLine 3Phs 3 0 None None 12 B04 |Borah-MMpont500kVLine 3Phs 3 0 None None 13 BO6 |CedarHill-HemingwaySOOkVLine 3Phs 3 0 None None 14 BO7 |Midpoint-HemingwayS00kVLine 3Phs 3 0 None None 15 BOB |Brkiger-Populus345kVLine 3Phs 3 0 None 4 BRIDGER222.0 60 fbug 59495 4 732591 BridgerbackswingUF-OK 16 B09 |Brkiger-3MileKnolI345kVLine 3Phs 3 dgerbackswingUF-OK 17 B09a |Bridger-3MileKnoll 345 kV Line 3Phs 3 N I M I /F18B09c|Bridger-3MileKnolI345kVLine |||||||||||||||||3Phs|3 NTSIML.TATED 19 B10 |Populus-Borah #1 345 kV Line |||||||||||||||||3Phs|3 |0 |None |||||||None | 20 B11 |Populus-Borah#2345kVLine |||||||||||||||||3Phs|3 |0 |None|||||||None| 21 B12 |Populus-Kinport 345 kV Line |||||||||||||||||3Phs|3 |0 |None |||||||None |22 B13 |Borah -Kinport 345 kV Line |||||||||||||||||3Phs|3 |0 |None |||||||None |23 B14 |Borah-Adelaide-Midpoint#1345kVUne |||||||||||||||||3Phs|3 |0 |None|||||||None| 24 B15 |Aeolus -Anticline 500 kV Line |||||||||||||||||3Phs|3 |0 |3 |LATHAM34 50 |65|vbu 0.79727 |22 42 |2 7833|20 33.096|None | 25 B15a |Aeolus -Anticline 500 kV Line w/Aeolus Gen Drop |||||||||||||||||3Phs|3 |0 |None |||||||None |26 B15g |Aeolus -Anticline 500 kV Line w/Aeolus Gen Drop |||||||||||||||||3Phs|3 |0 |None |||||||None |27 B16 |Aeolus -Mona 500 kV Line |||||||||||||||||3Phs|3 |0 |None |||||||None |28B16a|Aeolus-Mona500kV+AedusGenDrop(600)|||||||||||||||||3Phs|3|0|None|||||||None| 29 B16d |Aeolus -Mona 500 kV +Aedus Gen Drop (600)|||||||||||||||||3Phs|3 |0 |None |||||||None |30 B16g |Aeolus -Mona 500 kV +Aedus Gen Drop (600)|||||||||||||||||3Phs|3 |0 |None |||||||None | 31 B16v|Aeolus-Mona500kV+AedusGenDrop(600)3Phs 3 0 None None 32 B17 |Hemingway-SummerLake500kVLine 3Phs 3 0 None None 32.1 B61 |RockSprings-Palisades230kVLine 3Phs 5 0 None None 32.2 B62 |Firehole-Monument230kVUne 3Phs 5 0 None None IsdteshedloadatFirehde345kVbus 33 | 34 |35 LEVEL"C"CONTINGENCIES 36 CO1 |Anticline-Populus 500 kV Unes 1 &2 37 CO1a |Anticline-Populus 500 kV Lines 1 &2 wl RAS 38 CO2 |Bridger-Populus345kVLines1&2 SLG 3 0 |None|||||||None| 39 CO2a|Bridger-Populus345kVLines1&2wlRAS SLG 3 0 |None|||||||None| 40 CO2b |Bridger -Populus 345 kV Lines 1 &2 w/RAS SLG 3 NOT SAMULTATED 41 CO3 |Bridger-3MiKnoll+Bridger-Populus #1 345 kV lines SLG 3 42 CO3a |Bridger-3MiKnoll+Bridger-Populus #1 345 kV w/RAS SLG 3 43 CO3b |Bridger-3MiKnoll+Bridger-Populus #1 345 kV w/RAS SLG 3 44 CO3c |Brdger-3MiKnoll +Brdger-Populus#1 345 kV w/RAS SLG 3 NOT SlM LTATEa 45 CO3d|Brdger-3MiKnolI+Brdger-Populus#1345kVwlRAS SLG 3 0 None None 46 CO3e |Bridger-3MiKnoll+Bridger-Populus #1 345 kV w/RAS SLG 3 0 None None 47 CO4 |Bridger-3MiKnoll+Bridger-Populus #2 345 kV lines SLG 3 0 None None 48 CO4a |Bridger-3MIKnoll+Bridger-Populus #2 345 kV w/RAS SLG 3 0 None None 49 CO4b |Bridger-3MiKnoll+Bridger-Populus #2 345 kV w/RAS SLG 3 0 |None |||||||None |50 CO4c |Bridger-3MiKnoll+Bridger-Populus #2 345 kV w/RAS SLG 3 A ED 51 CO4d |Bridger-3MiKnoll+Bridger-Populus #2 345 kV w/RAS SLG 3 0 None None 52 CO4e |Brdger-3MiKnoll +Brdger-Populus#2 345 kV w/RAS SLG 3 0 None None 53 COS |Borah-Populus345kVLines1&2 SLG 3 0 None None 54 CO5a |Borah-Populus345kVLines1&2w/RAS SLG 3 NOT 51MULTATED 55 CO6 |Populus -Ben Lomond 345 kV Lines 2 &3 SLG 3 56 CO6a |Populus-BenLomond345kVLines2&3 SLG 3 NOT SIMULTATED 57 CO7 |Populus-Kinport+PopuluwBorah#2345kVLines SLG 3 0 None None 58 COS |Populus-Borah#2 345 kV +Treastn-Brady 230 kV Lines SLG 3 0 None None 59 COS |Borah-Adelaide#2+Borah-Hunt230kVlines SLG 3 0 None None 60 C12 |Borah-Adet-Midpoint#1+MMpont-Adelade#2345kVlines SLG 3 0 None None 61 C13 |Midpoint-Adelakle#2345kV+Borah-Hunt230kVlines SLG 3 0 None None 62 C14|PaloVerdeGenerationUnRs2&3 ||||||||||||||||||||||||None||0|None||||||||None| |lill|||||||IIlllil||IIlI IllI Ill ||||||lil i I Appendix 5 -Gateway West Study Plan (2010 01 19 V9 -Phase I II GW Study Plan.doc 2/11/2010) Gateway West Transmission Project Study Plan For completion of WECC Project Rating Process Phase 2 -Facility Rating Date:January 19,2010 Rev 9 Study Plan -Preamble The purpose of this document is to provide a consistent,comprehensive study methodology for the project sponsor(s)and/or study group to follow in establishing the planned rating (Phase 1) and accepted rating (Phase 2)for the Energy Gateway Projects.Section III (Page 7)outlines the methodology that was followed for the Phase 1studies,while Section IV (Page 18)outlines the study process that will be followed for the Phase 2 studies. A separate study plan which addresses the study methodology for the Gateway South Projects will be issued separately.While study schedule for both Gateway South and Gateway West are noted independentlyin each study plan,the study schedules have been coordinated between the projects. I.INTRODUCTION Idaho Power previously announced"its transmission expansion plan to build more than 1,400 miles of new 500 kV transmission lines originating in Wyoming and connecting into Idaho and the Pacific Northwest,with completion targeted in 2017.A First stage completion of this project is expected to be completed by 2016.This project has been identified as the Gateway West (GW)Project. Regional Planning The GW project was first presented to stakeholders on July 9,2007 at a Northern Tier Transmission Group (NTTG)Regional Planning Process (RPP)kickoff meeting in Portland, Oregon.The Northern Tier Transmission Group is made up of a group of transmission providers and customers in the Northwest and Rocky Mountain states.The NTTG region covers Wyoming,Idaho,Utah,and parts of Oregon. As the GW project facilities fall primarily within the NTTG footprint,the project was entered into the NTTG Regional Planning Process (RPP)in May 2007.The RPP for the Fast Track projects included engagingstakeholders to formulate and refine the transmission plan to meet the ten year requirements of the NTTG region.This process was completed during the first half of 2007 and incorporated:1)the member utilities' Integrated Resource Plans (IRP),2)past studies highlighting regional through-putand export needs and known congestion areas,and 3)existing regional projects. The NTTG Planning Committee coordinates transmission planning within the NTTG footprint,with other sub-regional planning groups,and with WECC planning 3 PBCiÝÍCOrp has indicated that they have entered into a memorandum of understanding with Idaho Power Company to cooperate on a northernmost line,a double-circuit 500 kV transmission line from PacifiCorp's and Idaho Power's jointly owned Jim Bridger Power Plant in Wyoming to southeastern Idaho,with a connection south into Utah along an existing transmission path from southern Idaho into northern Utah.Another segment of this line will be built west across Idaho and into Oregon.This project has been identified as the Gateway West (GW)Project.Idaho Power Company is performingall the studies related to GW project (west of Populus). Gateway West Transmission Project Page 111 of 150 Phase 2 Study Plan committees.The planning group will biennially prepare a long-term (10 year)bulk transmission expansion plan,while taking into consideration up to a twenty year planning horizon.The plan will provide strategic transmission options for economic and reliabilityprojects,and specific alternative plans for reinforcing the transmission system. The plan is intended to help coordinate the integration of new generation into the system and to reduce transmission congestion.This work is intended to be completed primarily by the transmission owners in the footprintutilities,with input from all interested stakeholders. Path Rating With the issuance of the Regional Planning Project Review report for the GW Project, regional planning has been completed and efforts to obtain a path rating4 fOr the GW Project are now under way.This study plan outlines the GW technical studies that will be performed in support of the following: WECC Project Rating Review -Phase 1 WECC Project Rating Review -Phase 2 The Phase 1 studies that are outlined as part of this Study Plan will focus on the non- simultaneous rating of the GW project.This includes all of the internal paths defined under the Gateway West project:TOT 4A,Aeolus West,Bridger West,Borah West and Midpoint West. The Gateway West Comprehensive Progress Report,which summarized the results of the Phase 1technical study findings,was issued on November 21,2008.The Gateway West Project was granted Phase 2 status on February 6,2009. Phase 2 studies will address the Simultaneous Transfer Capability of the GW Project in conjunctionwith other major transmission paths in the Western Interconnection. Due to the scope and nature of the GW project,the Phase 1 portion of this study plan is intended to establish non-simultaneous ratings for the expanded/modified transmission paths listed in Table 1. Table 1.Proposed Gateway West Internal Paths Line Description Transmission Path Rating Path Direction 1 Anticline*-Populus 500 kV #1  (new)Modified E a W Bridger*-Three Mile Knoll 345 kV (modified)Bridger West 4 A path rating can be related to an individual transmission line or a combination of parallel transmission lines. The transfer path may be composed of transmission lines between control areas or internal to a control area,or a combination of both. Gateway West Transmission Project Page 112 of 150 Phase 2 Study Plan Bridger*-Populus 345 kV #1  (modified) 2 Populus*-Cedar Hill 500 kV (new)Modified E ->W Borah*-Midpoint#1 500 kV (conversion of Kinport -Borah West Midpoint 345 kV line) Borah*-Adelaide #2 345 kV Borah*-Adelaide -Midpoint #1 345 kV Borah*-Hunt 230 kV American Falls*-Minidoka 138 kV 3 Midpoint*-Hemingway 500 kV #1(modified)Modified Bidirectional Midpoint*-Hemingway 500 kV #2 (new)Midpoint Cedar Hill*-Hemingway 500 kV (new)West Midpoint*-Rattle Snake 230 kV Midpoint*-DRAM 230 kV Midpoint*-Boise Bench 230 kV #3 Upper Salmon*-Upper Salmon SR 138 kV Lower Malad *-Lower Malad SR 138 kV 5 Aeolus*-Anticline #1  500 kV (new)Aeolus West E ->W Platte*-Latham 230 kV #1 Mustang*-Bridger 230 kV 6 Windstar*-Aeolus 230 kV #1  (new)TOT 4A NE ->SW Riverton*-Wyopo 230 kV Dave Johnston*-Difficulty 230 kV Spence*-Mustang 230 kV Note:(*)indicates metering point II.SCOPE OVERVIEW The objective of the study plan is to outline steps necessary to determine the proposed path ratings for the GW Project.The GW Project includes the followingtransmission facilities: Windstar -Aeolus 230 kV #1  (73 &88 miles,Bittern 2-1272 ACSR) Aeolus -Anticline 500 kV #1  (145 miles,3-Athabaska/TW 1949.6) Aeolus 500/230 kV #1,#2  autotransformers (1500 MVA) Aeolus 230 kV SVC (-125/+450 MVAr) Anticline 500/345 kV #1  autotransformer (1500 MVA) Anticline 345 kV #1  PST (750MVA,±20 Degrees) Anticline -Populus 500 kV #1  (204 miles,3-Athabaska/TW 1949.6) Populus -Cedar Hill 500 kV #1 (118 miles,3-Athabaska/TW 1949.6) Cedar Hill -Midpoint 500 kV #1 (33 miles,3-Athabaska/TW 1949.6) Gateway West Transmission Project Page 113 of 150 Phase 2 Study Plan Cedar Hill -Hemingway 500 kV #1(158 miles,3-Athabaska/TW 1949.6) Populus -Borah 500 kV #1 (53 miles,3-Athabaska/TW 1949.6) Borah -Midpoint 500 kV #1 (88 miles,3-1272 MCM (36/1),conversion of Kinport-Midpoint345 kV line) Midpoint -Hemingway 500 kV #2 (131 miles,3-Athabaska/TW 1949.6) Note that the Windstar -Aeolus 500 kV line and the Aeolus-Creston-Bridger 230 kV line have been eliminated from the Gateway West project since the original phase 1 report. An addendum report has been prepared for phase 1,stage 1 without these lines. The preliminary configuration of the Gateway West Energy Project line and transformer impedances,line distances,shunt and series compensation and voltage support are provided in Appendix 3, The non-simultaneous studies that will be performed as part of the Phase 1studies include power flow and limited transient stability and post-transient stability analysis. The Phase 2 study efforts will perform simultaneous analysis to determine the Accepted Rating for the project. Adding new transmission facilities to an existing path should increase the path rating.In following WECC policies,this increase should be attributable to the new project.This study plan only addresses the studies corresponding to maximum project loadings. Studies covering simultaneous interactions between paths,would ultimately be necessary to provide an Accepted Rating and/or nomogram(s)for the proposed project, and will be completed in Phase 2. A.Baseline Analysis-Non-simultaneous (WECC Phase 1) All aspects of this analysis,including assumptions,methodology,and contingencies are covered in Section III of this Study Plan. B.Simultaneous Analyses (WECC Phase 2) The Study Plan includes an assessment of the potential impact of GW on the following simultaneous paths to refine the GW Project definition.Further details of the simultaneous analysis are covered in Section IV of this Study Plan. 1.Gateway South paths Aeolus South [New Path] Mona South [New Path] 2.PacifiCorp Internal Paths Gateway West Transmission Project Page 114 of 150 Phase 2 Study Plan Monument -Naughton 230 kV Rock Springs/Firehole West 3.Idaho-Northwest [Path 14](including MP-SL [Path 75]) 4.Path C [Path 20] 5.Idaho -Sierra [Path 16] 6.SWIP (Great Basin -North,EnTP) 7.MISTI 8.Montana -Idaho [Path 18] 9.Montana -Northwest [Path 8] 10.Montana Southeast [Path 80] 11.Yellowtail South 12.TOT 4B [Path 38] 13.TOT 3 [Path 36] 14.Bridger West [Path 19] 15.TOT 1A [Path 30] 16.Bonanza West [Path 33] 17.Others. Further details of the simultaneous analysis are covered in Section IV of this Study Plan. C.SensitivityAnalyses The sensitivity analysis defined in this study plan was developed based on preliminary assessment that there could be an interaction between GW and projects that are planned to be developed in the same time frame as GW.The Study Plan includes the following projects and uncertainties as sensitivity cases. 1.Gateway South (GS)project will be modeled to determine its impact on Gateway West.The GS project will be constructed at least one year after GW is completed. 2.A generic version of a northern Nevada project will be modeled to include either the Ely Energy Center &500 kV Line,or the Great Basin North &South 500 kV lines. 3.Southern portion GS:Mona -Red Butte,bi-directional rating 4.Mountain States Transmission (MSTI)Project Gateway West Transmission Project Page 115 of 150 Phase 2 Study Plan 5.TOT 2C:Add a second Red Butte -Harry Allen/Crystal line,bi-directional rating 6.Different resource mix in Wyoming to evaluate higher concentrations of wind generation. Gateway West Transmission Project Page 116 of 150 Phase 2 Study Plan III.BASELINE ANALYSIS -NON-SIMULTANEOUS To the fullest extent possible,the rating and sizing of new facilities shall be refined as part of this analysis. A.Study conditions The process for performing the proposed Phase 1studies that will establish the Preliminary Ratings are described below.Preliminary Ratings are identified for transmission lines that have not been throughthe WECC Phase 2 rating process,and are a general rating determined by simply evaluating the conductor ampacity required to handle the path flows between source and sink facilities.However,due to the scope of the GW Project,specific transfer levels have been proposed and facilities have been sized to accommodate these power transfers. 1.Base Case Description Project Base Case la will be developed by starting with the WECC 2015HS1 power flow base case.This case was approved by WECC on April 6,2007 and since has undergone a number of revisions.The added resources represented in this case are reflected under the "moderate wind generation"portion of Table 2.Stress in this case will reflect heavy Wyoming to Utah and west of Bridger transfers as well as heavy north to south flows South of Mona and on Path 2C (Red Butte -Harry Allen).Table 4a reflects the proposed transfer levels in Case 1a. Project Base Case 1b will have a configuration (nearly)identical to Case 1a; however,its generation resource mix will be as noted under the "higher wind generation"portion of Table 2.As necessary,line series compensation will be adjusted to achieve (as close as possible)the flow conditions listed in Table 4a Project Base Case 1c will have a configuration identical to Case la;however, schedules will be adjusted to reflect heavy south to north flows on the TOT 2C and the Mona South transmission paths.Table 4c reflects the proposed transfer levels. The Project Base Case 1d will be developed by using the WECC 2010LA1 base case with facility adjustments to reconcile it as closely as possible to the configuration of a 2015 light load case.Table 4d reflects the proposed transfers for this case.Case 1c will not be utilized during the Phase 1 project definition studies,but will be developed for use in the Phase 2 studies. 2.Generation Assumptions Planned future Generation projects will be modeled in the Case la,1b and 1d base cases as identified in Table 2.Case 1c generation will reflect reduced Gateway West Transmission Project Page 117 of 150 Phase 2 Study Plan generation in Wyoming to allow transfers from southern Nevada thru central Utah (Crystal/Harry Allen -Red Butte -Mona)to the Utah -Wasatch Front". Table 2.Future Planned Generation Projects* Case 1 a/d -Generation Projects Case 1 b -Generation Projects (Moderate Wind Generation)(HighWind Generation)** ||Generation Type Zone Generation Type Zone Location Thermal Wind Total Thermal Wind |Total | Dave Johnston Area 275 2825 275 2825 Windstar 1500 1050 600 1950 Creston 1050 500 1550 Aeolus 1050 1050 Jim Bridger Area 1500 2000 500 1500 Upper Green River 500 500 500 Subtotal 3775 2100 1875 4000 Total 5875 5875 *The generation assumptions will be responsive to energy policies currently under review by utilities,regulators and other stakeholders.Specific economic and technologyevaluations and siting/permittingprocesses also need to run their course. **Case 1b will be developed for the purpose of evaluating a wider range of Wyoming wind resources. To stress the transmission paths,generation will be added in Wyoming and adjusted in Idaho,Utah,Arizona,Los Angeles,Las Vegas and the Northwest. 3.New Transmission Project Assumptions All four of the base cases will be updated to reflect Energy Gateway Projects or projects that are currentlywithin the WECC Phase 2 rating process.These projects are noted in Table 3. s About 75 to 80%of all of the electricity use in the State of Utah is in the area known as the Wasatch Front (WF). This area includes the entire electrical load served out of the Spanish Fork substation in the south up to the electrical load served out of the Ben Lomond substation in the north.This includes parts of Juab and Sanpete Counties,and all of Utah,Salt Lake,Summit,Tooele,Wasatch,Davis,Morgan and Weber Counties. Gateway West Transmission Project Page 118 of 150 Phase 2 Study Plan Table 3.Planned Energy Gateway Projects or Projects in WECC Phase 2 1 Gateway West:Double circuit 500 kV lines 2 Gateway South:Double circuit 500 kV lines 3 Mona -Limber:Double circuit 500 kV line,Limber -Oquirrh and Limber -Terminal,Double circuit 345 kV lines 4 Populus-Terminal:Double circuit 345 kV line (Path C) 5 TOT 3 (230 kV upgrade) 6 Ely Energy center and associated transmission*(Harry AIIen -Robinson Summit Transmission Line) 7 Great Basin Transmission Project* 8 Mountain States Transmission (MISTI)Project 9 IPP DC line upgrade 10 Wyoming -Colorado Intertie Project 11 NavajoTransmission Project /Desert Rock Energy Project (this project is not likely to have any impact on the Idaho and PACE areas and may be omitted ,depending upon group review) 12 Palo Verde -Devers 500 kV #2 13 Others *A generic version of a northern Nevada project will be modeled that includes one of these projects,which cross throughthe SWIP corridor. 4.WECC Major Path Rating Assumptions The updates to the WECC 2015HS base case for Case la and 1b includes revised load/generation adjustmentto stress the major path flows to the proposed rating,shown in Table 4a/b. Table 4a/b.Major Path Proposed Transfer Levels (Case 1a &1b -GS N->S Flows) Path Path Name WECC Proposed Rating Rating (MW)(MW) 1 37 TOT 4A:Northeast to Southwest 810 3500 2 19 Bridger West:(GW Path)East to West 2200 5200 3 New Aeolus South 3000 4 New Mona South:North to South 2335 5 35 Harry Allen -Red Butte (TOT 2c)300 2100 North to South 6 79 Sigurd -Glen Canyon (TOT 2B2)265 265 North to South Gateway West Transmission Project Page 119 of 150 Phase 2 Study Plan 7 78 Pinto -Four Corners (TOT 2B1)530 560 North to South 8 Others Similarly,the updates to the WECC 2015HS base case for Case 1c includes revised load/generation adjustmentto stress the major path flows to the proposed rating,shown in Table 4c Table 4c.Major Path Proposed Transfer Levels (Case 1c -GS S->N Flows) Path Path Name WECC Proposed Rating Rating (MW)(MW) 1 35 Harry AIIen -Red Butte (TOT 2c)300 1700 South to North 2 79 Sigurd -Glen Canyon (TOT 2B2)300 300 South to North 3 78 Pinto -Four Corners (TOT 2B1)600 600 South to North 5 Others The base case for Case 1d will be developed from the WECC 2010LA1 and will reconcile as closely as possible to a 2015 light load base case configuration. Case 1d will be utilized during the Phase 1 project definition studies only if necessary to establish the proposed non-simultaneous ratings.This case will be analyzed in Phase 2 of the Rating Review. Table 4d.Major Path Proposed Transfer Levels (Case 1d -GW E->W Flows) Path Path Name WECC Proposed Rating Rating (MW)(MW) 1 37 TOT 4A:Northeast to Southwest 810 3400 2 19 Bridger West:East to West 2200 5200 3 17 Borah (Populus)West (GW Path)2557 5557 4 New Aeolus -Mona (GS Path):North to South 3000 5 Others B.Study Methodology(Applicable for both WECC Phase 1and 2 analysis). The power flow base case(s)and dynamic stability data used for this study will be compatible with GE PSLF V16.3. Gateway West Transmission Project Page 120 of 150 Phase 2 Study Plan For all areas outside Wyoming,Utah,Idaho and Southern Nevada,the network topology and loads will reflect information provided to WECC by each respective area. The study results will comply with NERC TPL-001-0 thru TPL-004-0 Standards as well as WECC TPL -(001 thru 004)-WECC -1-CR -System Performance Criteria.Additionally,PacifiCorp and Idaho Power planning criteria will also be applied. 1.Power Flow Analysis (studycriteria and contingencylist) Power flow studies will be evaluated under steady-state and single/double contingency conditions to ensure the Project meets the system performance requirements defined in the planning standards. Study Criteria: a.Steady-State Conditions i.Under steady-state conditions,bus voltages must be maintained between 0.95 p.u.and 1.06 p.u.,unless specific minimum operating voltage requirements exist. ii.All line and transformer loadings must be below normal continuous ratings. b.Contingency Conditions 1.Changes in bus voltages from pre-to post-contingency conditions must be less than 5%for single (N-1)contingencies,and 10%for double (N-2) contingencies,with exceptions noted in Appendix 1 in regards to the utilities involved. 2.AII line,series capacitors,and transformer loadings must be below their emergency rating (or normal rating if no emergency rating is given),for both N-1 and N-2 contingencies. 3.In addition to the NERC TPL Standards and WECC system performance criteria, PacifiCorphas the followingrequirements:For steady-state conditions,Pinto load area 345 and 138 kV bus voltages as low as 0.93 pu are acceptable as long as load tap changing (LTC)transformers adjust the associated 69 kV bus voltages to 1.01 pu or higher.For post transient N-1 outages,Pinto load area voltages are acceptable if the 69 kV bus voltages are in the range of 0.90 to 1.10 p.u.The minimum 0.90 p.u.post-transient voltage criteria for this area are based on the original system design criteria. Contingencies: Tables 5a &5b provides a list of contingencies to be simulated during the power flow analysis. Gateway West Transmission Project Page 121 of 150 Phase 2 Study Plan Table 5a -List of Single Contingencies for Power Flow Analysis 1 Anticline -Populus 500 kV Line 2 Anticline 500 /345 kV Transformer 3 Bridger -Populus 345 kV Line 4 Bridger -3Mileknoll 345 kV Line 5 Bridger 345 /230 kV Transformer 6 3Mileknoll-Goshen 345 kV Line 7 Kinport -Goshen 345 kV Line 8 Kinport -Borah 345 kV Line 9 Populus -Borah 500 kV Line 10 Borah 500 /345 kV Transformer 11 Borah 345 /230 kV Transformer 12 Populus -CedarHill 500 kV Line 13 Cedar Hill -Midpoint500 kV Line 14 Cedar Hill -Hemingway 500 kV Line 15 Midpoint-Hemingway 500 kV Line 15a Hemingway -Summer Lake 500kV line 16 Borah -Midpoint 500 kV Line 17 Midpoint 500 /345 kV Transformer 18 Midpoint 345 /230 kV Transformer 19 Borah -Adelaide #2 345 kV Line 20 Adelaide-Midpoint#2 345 kV Line 21 Borah -Adelaide -Midpoint#1345 kV Line 22 Borah -Hunt 230 kV Line 23 Midpoint-Boise Bench #3 230 kV Line 24 Midpoint-Rattle Snake 230 kV Line 25 Midpoint-Dram 230 kV Line 26 Rattle Snake -Boise Bench 230 kV Line 27 Dram -Boise Bench 230 kV Line 28 Hemingway 500/230 kV Transformer 29 Kinport -Goshen 345 kV Line 30 Populus -Borah #1345 kV Line 31 Populus -Borah #2 345 kV Line 32 Populus -Kinport 345 kV Line 33 Populus -Ben Lomond #3 345 kV Line 34 Populus -Terminal 345 kV Line Gateway West Transmission Project Page 122 of 150 Phase 2 Study Plan 35 Aeolus-Anticline 500 kV Line 36 Aeolus-Mona 500 kV Line 37 Aeolus 500 /230 kV Transformer 38 Aeolus-Windstar 230 kV Line 39 Aeolus-Miners 230 kV Line 40 Bonanza -Mona 345kV Line Table 5b -List of Double Contingencies for Power Flow Analysis 1 Anticline -Populus 500 kV Lines (two circuits)-with &w/o generator tripping 2 Bridger -Populus #1  345 kV Lines -with &w/o generator tripping 3 Bridger -3MileKnoll +Bridger -Populus#1 345 kV lines -with &w/o generator tripping 4 Bridger -3MileKnoll +Bridger -Populus#2 345 kV lines -with &w/o generator tripping 5 Borah -Populus 345 kV DLO with /w/o generator tripping 6 Populus -Ben Lomond 345 kV DLO 7 Ben Lomond -Terminal 345 kV DLO 8 Populus -Kinport +Populus -Borah #2 345 kV Lines with/w/o generator tripping 9 Populus -Borah #2 345 kV +Treasureton -Brady 230 kV Lines 10 Populus -Borah #1345 kV +Treasureton -Brady 230 kV Lines 11 Populus -Ben Lomond #2 +PopulusTerminal 345 kV Lines. 12 Populus -Terminal 345 kV +Treasureton -Brady 230 kV Lines 13 Borah -Adelaide #2 &Borah -Adelaide -Midpoint #1 345 kV lines (RA) 14 Borah -Adelaide #2 &Midpoint -Adelaide #2 345 kV lines (RA) 15 Borah -Adelaide #2 &Borah -Hunt 230 kV lines 16 Borah -Kinport &Borah -Adelaide -Midpoint #1 345 kV lines (RA?) 18 Borah -Kinport &Midpoint -Adelaide #2 345 kV lines (RA?) 19 Borah -Kinport 345 kV &Borah -Hunt 230 kV lines (RA?) 20 Borah -Adelaide -Mid point #1 &Midpoint -Adelaide #2 345 kV lines 21 Borah -Adelaide -Midpoint #1 345 kV &Borah -Hunt 230 kV lines (RA) 23 Borah -Adel #2 345 kV +Borah -Midpoint 500 kV Lines Gateway West Transmission Project Page 123 of 150 Phase 2 Study Plan 24 Bridger -Populus #1 &Goshen -Kinport 345 kV Lines --with & w/o generator tripping. 25 Bridger -Populus #2 &Goshen -Kinport 345 kV lines with &w/o generator tripping. 26 Aeolus-Anticline 500 kV Lines (two circuits)-with &w/o generator tripping 27 Aeolus-Mona 500 kV Lines (two circuits)-with &w/o generator tripping 26 Palo Verde Generation -Trip Two Units RA =Risk Assessment Outage -These are double line outages for lines that do not share a common element (structures,right of way,breaker)but are in the same general geographic location. c.Voltage Stability Analysis: The WECC Voltage stability Guidelines and Reactive Power Reserve Monitoring Methodologywill be utilized in evaluating study results. i.For N-1 disturbances,the associated critical bus is required to have positive reactive margin for a 5%increase beyond the maximum allowable MW flow on the path.Idaho's 250 MVAr margin at the critical buses will also be observed. ii.For N-2 disturbances,the associated critical bus is required to have positive margin for a 2.5%increase beyond the maximum allowable MW flow on the path.Idaho's 200 MVAr margin at the critical bus will also be observed. iii.For simplicity,the N-1and N-2 disturbances will all be evaluated with a 5% increase in flow.When necessary 2.5%increase in flow will be applied for N- 2 disturbances. 2.Transient Stability Analysis (study criteria and contingencylist) Transient stability studies will be performed to assess the dynamic performance impact of heavily stressed lines under the projected system conditions for various contingencies.Limited transient stability analysis will be performed in Phase 1,with more extensive analysis in Phase 2. The study will determine the most critical fault condition that would limit the non-simultaneous transfer capability. Study Criteria for Phase 1: a.All machines in the system shall remain in synchronism as demonstrated by their relative rotor angles. b.System stability is evaluated based on the damping of the relative rotor angles and the damping of the voltage magnitude swings. c.For central,northern and eastern Wyoming,the following dynamic stability guidelines have been established:Following a single contingency Gateway West Transmission Project Page 124 of 150 Phase 2 Study Plan disturbance with normal fault clearing,the bus voltage transient swing on all buses should not be lower than 0.70 p.u.,and the system should exhibit positive damping.Additionally,the WECC off normal frequencycriteria guidelines for N-1 (59.6 Hz)and N-1-1 or N-2 (59.0 Hz)will be followed. d.Other transient voltage dips and duration requirements must meet the criteria of the TPL Standards and WECC System Performance Criteria.See Appendix 2. e.The contingencies provided in Tables 6a &6b will be simulated in the transient stability analysis. Table 6a -List of Single Contingencies for Transient Stability 1 Anticline -Populus 500 kV Line 2 Populus -Borah 500 kV Line 3 Populus -CedarHill 500 kV Line 4 Borah -Midpoint 500 kV Line 5 Cedar Hill -Midpoint 500 kV Line 6 Cedar Hill -Hemingway 500 kV Line 7 Midpoint -Hemingway 500 kV Line 7a Hemingway -Summer Lake 500 kV Line 8 Bridger -Populus 345 kV Line 9 Bridger -3MileKnoll 345 kV Line 10 Populus -Borah #1 345 kV Line 11 Populus -Borah #2 345 kV Line 12 Populus -Kinport 345 kV Line 13 Borah -Kinport 345 kV Line 14 Borah -Adelaide -Midpoint #1 345 kV Line 15 Aeolus -Anticline 500 kV Line 16 Aeolus -Mona 500 kV Line For all of the indicated outages,3-phase faults with and w/o unit tripping as needed will be studied.If a 3-phase fault requires unit tripping to meet performance then SLG fault will be studied w/o unit tripping. Table 6b -List of Double Contingencies for Transient Stability 1 Anticline -Populus 500 kV Lines (two circuits)-with &w/o generator tripping 2 Bridger -Populus #1  345 kV Lines -with &w/o generator tripping 3 Bridger -3MileKnoll +Bridger -Populus#1 345 kV lines - with &w/o generator tripping 4 Bridger -3MileKnoll +Bridger -Populus#2 345 kV lines - with &w/o generator tripping Gateway West Transmission Project Page 125 of 150 Phase 2 Study Plan 5 Borah -Populus 345 kV DLO with /w/o generator tripping) 6 Populus -Ben Lomond 345 kV DLO 7 Populus -Kinport +Populus -Borah #2 345 kV Lines with/ w/o generator tripping 8 Populus -Borah #2 345 kV +Treasureton -Brady 230 kV Lines 9 Borah -Adelaide #2 &Borah -Hunt 230 kV lines 10 Midpoint -Kinport &Borah -Adelaide -Midpoint#1 345 kV lines 11 Midpoint -Kinport 345 kV &Borah -Hunt 230 kV lines 12 Borah -Adelaide -Mid point #1 &Midpoint -Adelaide #2 345 kV lines 13 Midpoint -Adelaide #2 345 kV &Borah -Hunt 230 kV lines 14 Palo Verde Generation -Trip Two Units 3.Post-Transient StabilityAnalysis (studyassumptions) A review of Power Flow and Transient Stability studies will be conducted to identifythe post transient conditions to be evaluated.Specific post transient studies will be performed as part of the Phase 1 studies are noted below: Study Assumptions: a.All loads will be modeled as constant MVA during the first few minutes following an outage or disturbance. b.All voltages at distribution substations will be restored to normal values by the transformer tap changers and other voltage control devices. c.Generator MVAr limits will be modeled as a single value for each generator since the reactive power capability curve will not be modeled in the program output. d.No manual operator intervention is allowed to increase the generator MVAr flow. e.Under post-disturbance conditions in central,northern and eastern Wyoming,all bus voltages should be within 0.90-1.10 per unit. f.The reactive margin will be measured at key locations identified during the studies. g.Other Assumptions Area Interchange:Disabled Gateway West Transmission Project Page 126 of 150 Phase 2 Study Plan Governor Blocking:Base load Flag will be used per WECC practices DC Line Transformer Tap Automatic Adjustment:Enabled Generator Voltage Control:Set to Local except for Palo Verde,and selected Northwest generation. Phase Shifter Control:Disabled Switched Shunt Devices:Disabled -except in Sierra Pacific Power system,and selected buses (Platte,Miners,Atlantic City,etc)in Wyoming. Gateway West Transmission Project Page 127 of 150 Phase 2 Study Plan IV.SIMULTANEOUS ANALYSES (WECC Phase 2) To the fullest extent possible,the rating and sizing of new facilities shall be refined as part of this analysis. Following the completion of the Project Definition studies for Phase 1,Facility Rating studies will be initiated for Phase 2.A two stage process will be adopted in establishing the Phase 2 ratings.Stage 1 will seek to establish a Phase 2 rating of 1500 MW in addition to the existing ratings of the underlyingsystem while Stage 2 or the full-build stage will seek to achieve a Phase 2 rating of 3000 MW over the existing ratings of the associated paths.Due to the scope and nature of the Energy Gateway Project,not all facilities will be constructed during the same period.As such,facilities will be installed followinga segmented approach -focusing on one leg of the project,than another leg,etc.(For example,Anticline-Populus #1 500 kV project will be in-service on 12/2014 and Anticline- Populus #2 500kV project will be in service in 12/2017.)Rather than initiate technical studies for each new transmission segment,it has been decided to group transmission segments into two logical project stages that would be evaluated by the WECC Phase 2 Study Group (or subgroup).Incremental system limitations for transmission segments that are added between stages,will be addressed via Operation Transfer Capability (OTC) studies.(This same process was followed by BPA and AVISTA for the West of Hatwai Expansion project.) As technical studies progress and Accepted Ratings for a given transmission stage are determined,standalone WECC Phase 2 Study Group technical reports will be completed and submitted to TSS,OC and PCC for approval,followingestablished WECC procedures. A.Case Description New base cases will be developed for the Gateway West simultaneous evaluation with other paths.These base cases are summarized below: A new base case,2a will be developed by starting with the WECC 2019HSa1 power flow case.This case was only recentlyapproved by WECC on June 10, 2009.The added resources represented in this case are reflected under the "high wind generation"portion of Table 2.Stress in this case will reflect heavy Wyoming to Utah and west of Bridger transfers..In this base case,the TOT 2C flows are projected to be 2100 MW for the Gateway South -Stage 2 configuration. The proposed transfer levels on the various Gateway West paths are noted in Table 4a. 6 Depending on path to be evaluated and system conditions,other base cases or sensitivity cases may be required by the Phase 2 technical study review group. Gateway West Transmission Project Page 128 of 150 Phase 2 Study Plan A new base case,2c will be developed utilizing the 2019HSa1 base case to evaluate increasing south-north TOT 2C transfers from 600 MW to 1700 MW transfers for the Stage 2 Gateway South configuration. A new base case,2d will be developed by using the WECC 13LW1a1 base case with facility adjustments to reconcile it as closely as possible to the configuration of a 2019 light load case.Table 4d reflects the proposed transfers for this case. Resources that will be utilized for both the Gateway West and Gateway South projects will be based on the latest PacifiCorp IRP (Integrated Resource Plan).A summary of the new resources that are available identified on the following table. (Updates to the table will be made as additional resource information is made available.) Per discussions at the April 2009 TSS meeting,entities can utilize the best available resource information at the time a transmission path is rated.OTC studies will be used to evaluate operating transfer conditions if resources come on-line either staggered or different than what was initially projected.[Specific wording from TSS minutes will be inserted when available.] Gateway West Transmission Project Page 129 of 150 Phase 2 Study Plan PacifiCorp -Integrated Resource Plan and Plan Revisions Based on the Revised 2008 IRP Preferred Portfolio (5/28/2009),the following resource plan projections were used to model resources in the Stage 1--1500 MW EGW simulation'. Energy Gateway Resource Mix M-1 F÷nc Yaktma i-d WYSW 100 2012 1C W.20 1 Walla WYSW 100 2013 99 We Winc MW WYSW 10&2014 .-4 ._788 IWI Mid C -33fsthFC':312 Windstar Troutda e --Hemingway "A A ad E Term nal q rrh 11 West Ma n EL L mbe Seven Mile Hms 120 2]G12MieHill: S gurd Harry Allen SE3Vu";F TVead:C1 Dr.md.ne "A 2>R2AFM 'Additional resource projections,beyond 10-years,were utilized in developingthe resource model for the Stage 2 -3000 MW EGW simulation.Gateway West Transmission Project Page 130 of 150 Phase 2 Study Plan B.Nomogram(s) As part of the simultaneous GS simultaneous rating analysis,changes to existing nomograms will be determined or new nomograms will be defined.These changes may include: A Bridger West vs.Aeolus South Nomogram. Other nomogram changes as determined during technical studies. C.Study Areas To help manage the magnitude of the study effort associated with this project,it has been deemed necessary to divide it into multiple study areas with their associated review groups (see Figure 1): 1.Southern Idaho Study Area This area will include all the planned and existing facilities between the Populus and the Hemingway substations. Both Midpoint West and Borah West paths will be studied and their corresponding ratings with the new proposed facilities determined under simultaneous interactions with other affected paths In the first and second stage of the work these facilities are comprised of: Facilities Stage I Stage Il Populus-Borah 500 kV #1 x Populus 500/345 kV Transformer x Borah 500/345 kV Transformer x Loop the Kinport-Midpoint 345 kV line into x Borah to create the Kinport-Borah 345 kV and the Borah-Midpoint 500 kV lines. Upgrade series compensation on the x Midpoint-Hemingway 500 kV #1 Populus-Cedar Hill 500 kV #1 x Gateway West Transmission Project Page 131 of 150 Phase 2 Study Plan (w/series compensation) Cedar Hill -Hemingway 500 kV #1 x (w/series compensation) Populus 500/345 kV Transformer #2 x Add series compensation on x Populus-Borah #1 500 kV Add series compensation on x Borah -Midpoint 500 kV #1 Midpoint -Hemingway 500 kV #2 x (w/series compensation) Cedar Hill -Midpoint 500 kV #1 x 2.Bridger Study Area This area will include all the planned and existing facilities between the Aeolus substation and the area just West of Populus. Bridger West,Aeolus West and Path C paths will be studied and their corresponding ratings with the new proposed facilities determined under simultaneous interactions with other affected paths. In the first and second stage of this project these facilities are comprised of: Facilities Stage I Stage II Anticline-Populus 500 kV #1 x (w/series compensation) Aeolus -Anticline 500 kV #1 x Gateway West Transmission Project Page 132 of 150 Phase 2 Study Plan (w/series compensation) Aeolus 500/230 kV #1,#2  TX x Aeolus 230 kV SVC (-125/+450 MVAr),MSC's x at 230 kV (3-100 MVAr,1-50 MVAr)&500 kV (4-200 MVAr) Anticline 500/345 kV #1 TX x Anticline 345 kV PST #1  x Aeolus-Anticline #2 500 kV x Anticline-Populus 500 kV #2 x (w/series compensation) Aeolus -Bridger #2 500 kV x Bridger 345/230 kV #4  TX x (500/230 kV Optional) 3.Windstar Study Area This area will include all the planned and existing facilities between the Windstar substation and the Aeolus substation. As new facilities proposed parallel the TOT 4A [Path 37]transmission path,the TOT 4A path will be studied and the corresponding increased rating with the proposed facilities determined under simultaneous interactions with other affected paths. In the first and second stage of this project these facilities are comprised of: Facilities Stage I Stage II Windstar -Aeolus 230 kV #1  x Gateway West Transmission Project Page 133 of 150 Phase 2 Study Plan Dave Johnston -Difficulty -Aeolus 230 kV x #1,rebuild to 2-1272 ACSR/phase Legend O Gateway West stations Construction Path Name o Adiacent Path Stations Borah WestMSTIVoltage-Existing Bridger Wen ¾Creek ---116 Idaho Montana 138 Peconductor23]Vi Idaho Siena ---161 SC 230kV Midpoint West ---230 --SC 3A5kV Pa i e --545 --SC500kV W TOT4A TOT48 Windstar Study Area Southern Idaho Study H rea Windstar Bridger Study Area Mkipoin ,we Aeolus Anticlinel Be n Bridger H irTil il SWIP Gateway West Transmission Project Page 134 of 150 Phase 2 Study Plan Figure l D.Path Ratings Major path ratings for GW will require simultaneous studies that may include updating existing paths and identifying new paths related to the project.An initial listing of interacting paths has been included in the table below.In following WECC guidelines,a ten percent test (simulates the critical outage on the path that established the path's non- simultaneous transfer capability)will be performed to validate the legitimacy of each simultaneous interaction. If no criteria violations (see Section III.B)exist for simultaneous operation with the main path and the proposed interactive path at their individual non-simultaneous transfer capability,under the critical outage,then simultaneous interaction will be deemed to be lacking. If simultaneous interactions are verified,a simultaneous nomogram describing safe operation (meets NERC TPL Standards and WECC System Performance Criteria)of the affected paths will be developed. New and existing paths with proposed new ratings that have been identified are: Study Area Path Proposed Rating Simultaneous Stage I Stage II Interaction Windstar TOT 4A 1935 MW 3435 MW Montana SE (Path 37)Tot 3 Tot 4B Yellowtail South Tot 1A Bridger Bridger West 3900 MW 5400 MW Aeolus South (Path 19) Path C Gateway West Transmission Project Page 135 of 150 Phase 2 Study Plan (Path 20) Montana -Idaho (Path 18) Bonanza West (Path 33) MISTI Monurnent- Naughton Rock Springs / Firehole West Bridger Path C 2250 MW 2250 MW Montana -Idaho (Path 20)(Path 18) Bridger West (Path 19) Bonanza West (Path 33) MISTI Monument- Naughton Rock Springs / Firehole West Gateway West Transmission Project Page 136 of 150 Phase 2 Study Plan Bridger Aeolus West 1500 MW 3000 MW Aeolus South Tot 1A Bonanza West (Path 33) Southern Borah West 4057 MW 5557 MW Path C Idaho (Path 17) Montana-Idaho (Path 18) MISTI SWIP (Great Basin - North,EnTP) Idaho-Sierra (Path 16) Southern Midpoint West 3987 MW 5487 MW Idaho - Idaho Northwest (Path 14) Hemingway - Summer Lake (Path 75) Boardman - Gateway West Transmission Project Page 137 of 150 Phase 2 Study Plan Hemingway Montana - Northwest (Path 8) Along with the impact of GW on existing and proposed path ratings,simultaneous studies will be run assuming that the Gateway South project has previously been completed. Other paths may be identified during the course of the study and would be added as appropriate. IV.Operational Considerations As part of this analysis,transmission options that will enhance operational flexibility will be evaluated.These options may include: 1.phase shifter utilization 2.varying levels of series compensation 3.others as identified V.MitigationOptions To the extent a need to mitigate criteria violations or interaction with Existing/Accepted path ratings is identified from the simultaneous path analyses,viable mitigation options will be identified in this Study Plan,including the following: 1.Added Facilities 2.Generation dropping 3.Shunt/Series capacitor switching. 4.Operating Procedures,RAS and/or Operating Nomograms A detailed mitigation plan,if required,will be determined and/or negotiated during Phase 3 of the project,prior to facilities becoming commercial or as part of the OTC technical studies. Gateway West Transmission Project Page 138 of 150 Phase 2 Study Plan V.SENSITIVITY ANALYSES The sensitivity analysis identified in this section is based on preliminary analysis to look at projects that are planned to be developed in the same time frame as GW.The Study Plan includes the projects and uncertainties noted in Table 7 as sensitivity cases. Table 7.List of Study Sensitivities 1 Generic Nevada500 kV Line* 2 Gateway South 500 kV Line(s) 3 Other Transmission Sensitivities *A generic version of a northern Nevada project will be modeled that includes either Ely Energy Center or the Great Basin North &South 500 kV lines that follow along the SWIP corridor. VI.SCHEDULE The study schedule for the Gateway West Project is noted below. 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016 2017 Task Start Date End Date 03 04 01 02 03 os|oi 02 03 04 01 02 03 04 01 02 03 04 01 02 03 04 01 02 03 04|oi 02 03 04 01 02 03 04 01 02 03 04 01 02 03 04 WECC Regional 7/5/2007 5/30/2008 Planning Process WECC Phase 1 2/1/2008 12/31/2008 Rating Process I WECC Phase 2 1/1/2009 6/1/2010 Rating Process NEPA Proco7Way Permitting 1/1/2008 12/31/2012 Right af Way 1/1/2008 12/31/2013 Engineenng 1/1/2008 12/31/2013 Gateway West Transmission Project Page 139 of 150 Phase 2 Study Plan Appendix 1 Minimum Voltage Limits Minimum Idaho and Utah Bus Voltage Limits Bus Pre-Outage Post-Disturbance Comments Min.Volt (p.u.)Min.Volt (p.u.) PacifiCorp 0.95 5%Deviation Idaho Power 0.95 5%Deviation (N-1) Minimum Wyoming Bus Voltage Limits Bus Pre-Outage Post-Disturbance Comments Min.Volt (p.u.)Min.Volt (p.u.) Central,Northern 0.95 0.90 Automatic capacitor and Eastern switching at Miners,Foote Wyoming Creek,Platte and Atlantic City. Gateway West Transmission Project Page 140 of 150 Phase 2 Study Plan Appendix 2 Excerpt from WECC TPL-(001 thru 004)-WECC-1-CR System Performance Criteria \\E((I)ISTI Illì\N(i -PEl(EOlOlA\(ET kBLE OE ALLO\\ABI E EEEE(TSON OTIIElf SiSTEilS WRC ad Outay Freqwng Associated wat Min ni un Pot WEŒ withthe PerkmnceCueµg ir.utsisuthap Torient i LIJU.IIL Ul.it,.sud!! n J.a d Voltage !Deviation Standard (See Note 3) A t \pphs.tH thniu in adini,n t.Ni M B il Nottoerceed Notbelowm6 11.J 5 t.or,Du 15%at had buses Hz &6 cyc§es or or30%atnew wrestaload load boat bm. 211",In:isinit Ib.m2Iltarles.it ttonœed 20%for more than 40 gdes at had hues D -',N thme in .dditi,n t.MB *PacifiCorp (Wyoming)buses allowed to deviate 10%for a level B disturbance. Gateway West Transmission Project Page 141 of 150 Phase 2 Study Plan Appendix 3 Energy Gateway Project Facilities Gateway West-Stage 1 Facilities (2014-2016) GatewayWest 126 miles (Hemingway -Bridger) 3-AthabaskalTW 1949 6 HemingwayC¯¯¯¯¯500kVto 500 kV to 1 TBoardmanointý 2-1272 Sk ark 500 kv to Kinport rGoshen r ThreeMile Summer Lake 88 le r 500 kV to MP Borah Captain Jack kV 153 mdes - 3-Athabaska/TW 204miles1949.6 3-Athabaska/TW 34miles CedarHills F---1949.6 500kVto ........230kVto Ath6abaska/TW Aeolus 230 kV to Aeolus/Creston )|I AtlanücCity --'Anticline UOk O __Bridger Rob nkSu mit 53miles 2-750MVA 230kVto (NorthemŠWIP)3-Athabaska/TW I 2 ±20 PST i l345kV 2-1500 i Mustang ,1949 6 i ___m Po n30o R ks n i ->230 kV to -500kV 5A aebSaska/TW ______I RockSpängs -345 kV 1949.6-230 kV 345 kV to Terminal 345kVto Ben Lomond Gateway Central Gateway West Transmission Project Page 142 of 150 Phase 2 Study Plan Gateway West-Stage 2 Facilities (2017-2018)GatewayWest 126 miles (Hemingway -Bridger) 3-AthabaskaffW mt 5 o 2 2 500kVto IGnport Goshen r ThreeMile Summer Lake i 88 les I i Existing I-I 500 kV to MPSL Borah CaptainJack 3 5 V 1 1500 152 miles 3-AthabaskaffW 145miles 1949.6 3-Athabaska/TW 34 miles Cedar Hills C ---1949.6 500 kV to p 230 kV to 3-AthabaskaffW I Aeolus Aeolus/Creston 1949.6 X -X X X X Antic line 00 kV r Rob nk mit 47miles .750MVAI I 230kVto (NorthemSWIP)3-AthabaskaffW M1500 ±3TPST I 1345kVI 2150 | Mustang 1949.6 i MVA 30 kV to 230kVto -500kV 5A askaffW ______I Rock Springs -345kV 1949.6-230 kV 345 kV to Terminal 345kVto Ben Lomond Gateway Central Gateway West Transmission Project Page 143 of 150 Phase 2 Study Plan 345 kV to Gateway WestThreeMileKnoll(Bridger -Aeolus -Windstar) 230 kV to 230 kV to 345 kV tog Atlantic City Yellow Cake Populus Bridger 230 kV to Pumpkin Butte i I 2 -750 MVA 2-150 I 230 kV to-+2Ô PST I MVA Casper 1-1500 --go Windstar 230 kV 500 k MVA 230 kV to 2-1500 MV/Anticline -i i Mustang---_J------230kVto500kVtoPointofRocks ----- 500_kV Populus 230 kV to Rock Springs 230 kV to Dave Johnston 73 miles 2-1272 ACSR145miles- 3 -Athabaska/TW 88 miles 1949.6 ,__Ag.oLus_2-1272 ACSR I svc I I 230 kV 3 -1500 MVA :500 kV I 500 kv to Mona 500kV 345 kV Gateway Sout -230 kV Gateway West Transmission Project Page 144 of 150 Phase 2 Study Plan 345 kV to Three Mil Knoll Gateway West(Bridger-Aeolus -Windstar) 230 kV to 230 kV to --- -AtlanticC er 2m3p0k n utte Yellow Cake 2 -750 MVA 2-1500 -+37 PST I MVA 230 kV to Casper 230kV F¯¯~¯¯¯¯¯¯¯~--- Anticline 500 k 00 ---------Windstar 230 kv 2-1500 MVA 600kg°XX 230kVto Pon30o R cks ------------. Rock Springs 48 miles 230 kV to 3 -Athabaska/TW Dave Johnston 1949.6 73 miles 2-1272 ACSR145mile 3 -Athabaska/TW 83 miles 1949.6 _AppLus 2-1272 ACSR I svc L 230 kV 97 miles --3 -1500 MvA 3 -Athabaska/TW 1949.6 500kV I 500 kv toMona 500 kV -----345 kV Gateway Sout -230 kV Gateway West Transmission Project Page 145 of 150 Phase 2 Study Plan Appendix 4 Energy Gateway Project Facilities As of 10-23-09,the facility impedances provided on the following pages were defined for the Energy Gateway Project facilities.As this project is a "work in progress",these impedances can and will change as the project matures. Gateway West Transmission Project Page 146 of 150 Phase 2 Study Plan Gateway West Project -Comprehensive Progress Report Gateway West Projec Facilities .i.n.unstuva) a....ms...min....n x a m-ÌŽ...cy c..u...m....mi..t.,n.....nu.m..m e a c.In m....i 67894 erzoew sta s us2soavei vao ooosvo oossao o2eoro sano eseo 2 272Aoss auemi272Aasa eva14 erzoew sta .us2soava2 eao ooossa oosseo 029660 seso sano Aosa semi272Aosa eraaa 677ssw st.edussoomvei vao oooos cosas essa sessa 46.72 s wo esassasawiemos ao m 2=cemvm res 2 ese a oves asass aanra saswa As.b..a.swasses ao maa a.senvm eer4e eras y .c.k.woestar2aeave aao ooo2a4 oo2sao oosser 4229 sas 272Aosa sayisrui272Aesa 67894 es4 «sta2ao m2aorver 2a ocoose cousso ocacea 4229 sa 272Aasa sugara1272Aosa esaoo erss4e er w.a.or2acavet 19ea ooo4ss oo4sos ocesse eas a 67894 es42cw sta m2aoeve2 1e ocooas oona24 ocaese een a 67796 6779ea.oussoo2aorvv.nsom.rwa cooort ocesse isooo teaoo 67796 6779ea.aussoo2aorvr.n.ons.rs2 cooost cousas sooo resoo 4so 292782 s wo bassassw1eans ao 224 +=eauvm 67797 ersoo «oolass 2cao saca || eveoo 678998 aeropuussoomvostai asi no ocases se sessa 46.72 wo bassassw1eans as aso 4xecuvAa 67999 67794 so 401922 2eoo saae evaoo erss2e e.eaposseoomvestm2 199 rue ooaaes se aussa 46.72 wo bassasawia496 as aao 4xaouvAa 67992 67794 so ao9ca2 2cao saae e7794 soi2seanu casarsaisookv sis oooos oo2aes sessa 46.72 wo subsasaw1eae6 ao las 4x4suvAa so12s coisa so coisa2 2eoo aoaa 2·9 .::::":::::-iiii-il coisa ao24ecess umpantsacav as oooo25 000 aussa 4earr wo bassasawia4ae o o o oooooo coisa cois4ceas semas..ysoorv isa ooo oos asssa 4ear2 wo bassasawia4ae ao 247 4xeouvAa coiss eoss4 so 401962 2eoo aoaa coa4o coisrump s.mmewayseoevs2 126 onos2 oo2sa año aussa 4earr wo bassasawia4ae ao 2oa 4x4suvAa 60957 eoiss so o.o12ea 2eoo aoaa 6096 Hemnawaysanssa-soorv 2e oooo22 ooooo n aussa 4earr wo bassasawia4ae o o o oooooo sola sandHomowuoNao<sonemanisoorv 202 ooo42 oo4o aussa 4ear2 wo bassasaw194a6 as a4e 4xecuvAa soi eoss2 so ao2car 2eoo saae een H.uw.y o.psookv suos ooo e oos asssa 4ear2 wo basaskaswia4ae ao 2eo 4xecuvAa 44 44eos so 409626 2000 acea 147 Gateway West Project -Comprehensive Progress Report Gateway South Project Facilities ni Tarseledcomiredvotal guantityt unp.a.nce .ersas soov ooo o 467ao as ear esoAcs wo habasartwieras ao a 4x2suvan .::I = iecocookvunesassumestnesmem,272conduewoniseg nowannoundleansaaxaans26ephaespaenoPacir-peookvanesassumempieAmsbaskarvr194asconductoron2545twisinentriangannoundleanuarstootonssespaena 148 Gateway West Project -Comprehensive Progress Report Gateway Central Project Facilities %ofLine Charging Targeted Comp'ed Total QuantityiRating(MVA)by MVARof Size ofShunt %SeriesBusNumbersMileageRXBNormallEmergencyConductorConductorNameReactorsReactorsReactorsBusNumbersComp IIIIIIIIIR IIIIIIIIIIIII - Loop Borah-BenLomond345 kV into Populus (@ 60093 67790 Borah -Populus 345 kV #2 48.0 1183 1482 o SBR Cardinal e 56.55 67790 67793Populus-Treasureton345kV#1 201 1165 1482 o R Cardinal 67793 66510Treasureton-Terminal345kV#1 112.1165 1482 o R Cardinal e 67790 65135 Populus -Ben Lomond 345 kV #2 86 1332 1478 2 1272 ACSR Bittern67790 65135 Populus -Ben Lomond 345 kV #3 81.1332 1478 2 1272 ACSR Bittern65135 66510 Ben Lomond -Terminal 345 kV #3 46 1332 1478 2 1272 ACSR Bittern 65135 66510 Ben Lomond -Terminal 345 kV #4 46 1332 1478 2 1272 ACSR Bittern Loop Bridger-Borah 345 kV into Populus 21272ACSR(padof 60090 67790 Borah -Populus 345 kV #1 47.1127 1553.6 Borah-Bridger)Skgark e 591-2167ACSR upgrade to2-1272ACSR(part of Borah- 67791 60085 Populus -Bridger 345 kV #1 191 1127 1553.6 Bridger)Sk ark e .43.18 Loop Bridger-Kinport 345 kV intoPopulus 2-1272 ACSR(part of 60191 67790 Kinport -Populus 345 kV #1 41.81 1127 1553.6 Kinport-Budger)Sk ark e 65.78 upgrade to2-1272ACSR(part of Borah- 67792 60085 Populus -Bridger 345 kV #2 192.0 1127 1553.6 Budger)Sk ark e Populus 345 kV Reactive Support 1-200 MVARShuntCapacitor,2-90 MVARShuntReactor e 65665 60084 Goshen -3MK345 kV 56.5 0.00169 0 0263 0 50072 1386 1593.9 e 3MKSeriesCapacitor -004790 986 1331.1 41.2Ohms 60084 60092 60.631-2167ACSR upgrade to2-1272 ACSR(part of 60092 60085 3MK-Bridger 345 kV 169.5 0.00507 0 07900 1 50217 1386 1593.9 Goshen-Bridger)Sk ark 50 MVAR e 67805 67807 Mona -Limber500kV#1 65 0 00048 0 01345 1 3¾¾3681.5 4097.2 3-1590 ACSRITWD Athabaska/TW1949.6 80 104 2 x 50 MVAR e 67805 67807 Mona -Limber500kV#2 65 0 00048 0 01MS 1 3WSO 3681.5 4097.2 3-1590 ACSR/TWD AthabaskalTW1949.6 80 104 2 x 50 MVAR 67807 67808Limber500/345kVTransformer#1 000012 000871 1500.0 1680.0 67807 67808Limber500/345kVTransformer#2 000012 000871 1500.0 1680.0 e 67808 66133Limber-Oguirrh345kV#1 21 000074 001095 016844 1332 1478 2-1272ACSR Bittern1272ACSR e 67808 66133Limber-Oguirrh345kV#2 21 000074 001095 016844 1332 1478 2-1272ACSR Bittern1272ACSR e 67808 66510 Limber -Terminal345 kV #1 40 0 00140 0 02085 O 32084 1332 1478 2-1272 ACSR Bittern1272 ACSR e 67808 66510 Limber -Terminal345 kV #2 40 0 00140 0 02085 O 32084 1332 1478 2-1272 ACSR Bittern1272 ACSR 66133 66510 Oguirrh -Terminal 345 kV #1 14.4 0 00050 0 00673 O 12907 1332 1478 2-1272 ACSR Bittern1272 ACSR 66133 66510 Oguirrh -Terminal 345 kV #2 144 0 00050 0 00673 O 12907 1332 1478 2-1272 ACSR Bittern1272 ACSR e 66133 66510 Oguirrh -Terminal 345 kV #3 14.4 0 00050 0 00673 O 12907 1332 1478 2-1272 ACSR Bittern1272 ACSR e 66133 66510 Oguirrh -Terminal 345 kV #4 14.4 0 00050 0 00673 O 12907 1332 1478 2-1272 ACSR Bittern1272 ACSR 65260 66080 amp i -1 ..1 .-ooma6526066080CampWill-90th345kV#4 10.65 000030 000440 008140 1395.9 1724.0 2-12/2AusN/Iwu Potomac/TW1557.4 Mona 500 kV Reactive Support 2-200 MVARShuntCapacitors 149 Gateway West Project -Comprehensive Progress Report Appendix 21 TSS Approved Exceptions to the NERC/WECC Standards 150 Accepted Voltage and FrequencyExceptions To the WECC ReliabilityCriteria for Transmission System Planning Acceptable Level of WECC Bus Name/Location Company Voltage/Frequency Dip ReliabilityCriteria Reference Northem New PNM 6%Post-Transient Voltage A*1997 Path Rating Catalog,Path 48 Northem Mexico Deviation New Mexico (NM2)Study Criteria Southem New PNM 7%Post-Transient Voltage A*1997 Path Rating Catalog,Path 48 Northem Mexico Deviation New Mexico (NM2)Study Criteria BIGCREEKl3.8 SCE 59.47 Hz 23 cycles below 59.6 A*1992 Study Progam,Case NTO8 BIGCREEK230.SCE 59.5 Hz 21 cycles below 59.6 A*1992 Study Progam,Case NTO8 EASTWOOD230.SCE 59.5 Hz 21 cycles below 59.6 A*1992 Study Progam,Case NTO8 RECTOR 230.SCE 59.56 Hz 15 cycles below 59.6 A*1992 Study Progam,Case NTO8 SPRINGVL230.SCE 59.57 Hz 13 cycles below 59.6 A*1992 Study Progam,Case NTO8 OMAR Gl3.8 SCE 59.57 Hz 13 cycles below 59.6 A*1992 Study Progam,Case NTO8 SYC CYNGl3.8 SCE 59.58 Hz 11 cycles below 59.6 A*1992 Study Progam,Case NTO8 VESTAL 230.SCE 59.59 Hz 9 cycles below 59.6 A*1992 Study Progam,Case NTO8 BLNDL Gll2.5 PACE 59.43 Hz 15 cycles below 59.6 A*1993 Study Progam,Case NTl2 BLUNDELL46.0 PACE 59.53 Hz 10 cycles below 59.6 A*1993 Study Progam,Case NTl2 MONTANAl13.8 MPC 58.66 Hz 14 cycles below 59.4 B*1992 Study Progam,Case NT38B COLSTP 222.0 MPC 58.86 Hz 14 cycles below 59.4 B*1992 Study Progam,Case NT38B COLSTP 115 MPC 59.13 Hz 10 cycles below 59.4 B*1992 Study Progam,Case NT38B COLSTP 122.0 MPC 59.14 Hz 9 cycles below 59.4 B*1992 Study Progam,Case NT38B HARDIN 115 MPC 59.27 Hz 7 cycles below 59.4 B*1992 Study Progam,Case NT38B COLSTRP 230.MPC 59.13 Hz 9 cycles below 59.4 B*1992 Study Progam,Case NT38B CORETTE 18.0 MPC 59.29 Hz 9 cycles below 59.4 B*1992 Study Progam,Case NT38B C-20 Accepted Voltage and FrequencyExceptions To the WECC ReliabilityCriteria for Transmission System Planning Acceptable Level of WECC Bus Name/Location Company Voltage/Frequency Dip ReliabilityCriteria Reference HARDIN 230.MPC 59.31 Hz 6 cycles below 59.4 B*1992 Study Progam,Case NT38B MILCTYDC230.WAPA UM 59.27 Hz 8 cycles below 59.4 B*1992 Study Progam,Case NT38B ROSEBUD 230.WAPA UM 59.30 Hz 7 cycles below 59.4 B*1992 Study Progam,Case NT38B DIABLO 500.PG&E 31.8%Transient Voltage Dip C*1993 Study Progam,Case FTO9 Ft.CREEK 34.5 PACE 36.1%Transient Voltage Dip C*1997 Study Progam,Case 9709 Ft.CREEK 230 PACE 35.6%Transient Voltage Dip C*1997 Study Progam,Case 9709 MINERS 230 PACE 35.4%Transient Voltage Dip C*1997 Study Progam,Case 9709 PLATTE 230 PACE 32.4%Transient Voltage Dip C*1997 Study Progam,Case 9709 NTL 138 BCHA 53.2%Transient Voltage Dip C*1994 Study Progam,Case FT14 Southern Nevada SPP 46.6%Transient Voltage Dip C*1998 Study Progam,Case 9813 Area WAPA L.M.Area WAPA LM 30.7%Transient Voltage Dip C*Response to Performance Log Item 95-02 EC Zone Between Alberta and BCHA Separation and associated low A-D*1988 Study Progam,Case NTO4 BCHA voltages ROSEBUD 115.TSG&T 59.2 Hz 15 cycles below 59.6 B 2003 Study Progam,Case DO310,DO329 ROSEBUD 13.8 TSG&T 59.2 Hz 15 cycles below 59.6 B 2003 Study Program,Case DO310,DO329 CARLIN TREND SPPR 7%Post-Transient Voltage B 2007 Study Progam,Case DO707 AREA Deviation C-21 Accepted Voltage and FrequencyExceptions To the WECC ReliabilityCriteria for Transmission System Planning Acceptable Level of WECC Bus Name/Location Company Voltage/Frequency Dip ReliabilityCriteria Reference NORTHEASTERN TSG&T 7%Post-Transient Voltage B 2003 Study Progam,Case DO309 NEW MEXICO Deviation 2004 Study Progam,Case DO421 AREA SOUTHERN NEW TSG&T 7%Post-Transient Voltage B 2005 Study Progam,Case DO509 MEXICO AREA Deviation OTHER BUSES IN TSG&T 6%Post-Transient Voltage B 2003 Study Progam,Case DO333 PNM AREA Deviation WESTERN TSG&T 7%Post-Transient Voltage B 2004 Study Progam,Case DO424 COLORADO AREA Deviation SOUTHERN TSG&T 7%Post-Transient Voltage B 2003 Study Progam,Case DO309 COLORADO AREA Deviation 2004 Study Progam,Case DO421,DO424 OTHER TRI-STATE TSG&T 6%Post-Transient Voltage B AREAS Deviation BRIDGER1-5 22.0 PACE &59.42 Hz 6 cycles below 59.6 B 2007 Study Progam,Case DO710,DO727 IPC BRIDGER 34.5 PACE &59.55 Hz 6 cycles below 59.6 B 2007 Study Progam,Case DO710,DO727 IPC WALSENBURG 69,TSG&T 8%Post-Transient Voltage B 115,230 Deviation PTRSNFLT 230 PACE &14%Post-Transient Voltage C 2007 Study Progam,Case DO709 IPC Deviation PTRSNFUR 69 PACE &13%Post-Transient Voltage C 2007 Study Progam,Case DO709 IPC Deviation PTRSNFRG 69 PACE &12%Post-Transient Voltage C 2007 Study Progam,Case DO709 IPC Deviation AMPS 69 PACE &13%Post-Transient Voltage C 2007 Study Progam,Case DO709 IPC Deviation AMPS 230 PACE &12%Post-Transient Voltage C 2007 Study Progam,Case DO709 IPC Deviation C-22 Accepted Voltage and FrequencyExceptions To the WECC ReliabilityCriteria for Transmission System Planning Acceptable Level of WECC Bus Name/Location Company Voltage/Frequency Dip ReliabilityCriteria Reference BIGGRASS 69 PACE &11.5%Post-Transient Voltage C 2007 Study Program,Case DO709 IPC Deviation BIGGRASS 161 PACE &11%Post-Transient Voltage C 2007 Study Program,Case DO709 IPC Deviation *Refers to old WSCC Disturbance Performance Table. C-23