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Home My WebLink About20080403Paulson Direct.pdfr'~"t t:ivr:o,-.1 '.i i.DAVID J. MEYER VICE PRESIDENT, GENERA COUNSEL, GOVERNNTAL AFFAIRS AVISTA CORPORATION P.O. BOX 3727 1411 EAST MISSION AVENUE SPOKAE, WASHINGTON 99220-3727TELEPHONE: (509) 495-4316FACSIMILE: (509) 495-8851 REGULAT~;~t) 3 pi' f AUJ ¡U'n - . ii¡ .: 08 BEFORE THE IDAHO PUBLIC UTILITIES COMMISSION IN THE MATTER OF THE APPLICATION OF AVISTA CORPORATION FOR THE AUTHORITY TO INCREASE ITS RATES AND CHAGES FOR ELECTRIC AN NATUR GAS SERVICE TO ELECTRIC AN NATURAL GAS CUSTOMERS IN THE STATE OF IDAHO CASE NO. AVU-E-08-01 CASE NO. AVU-G-08-01 DIRECT TESTIMONY OF GREG A. PAULSON FOR AVISTA CORPORATION (ELECTRIC AN NATURA GAS) 1 2 I. INTRODUCTION Q.Please state your name, employer and business 3 address. 4 A.My name is Greg A. Paulson and I am employed as 5 the Manager of Customer Service, Analytics and Technology, 6 for Avista Utilities, at 1411 East Mission Avenue, Spokane, 7 Washington. 8 Q.Would you describe your educational background 9 and professional experience? 10 11 12 A.I am a 1991 graduate of Montana State University wi th a degree in Mechanical Engineering.I completed Washington State University's Project Management 13 Certificate program in 2007. I joined the Company in 2004. 14 In the past 4 years I have performed duties as a Metering 15 Automation Engineer and proj ect manager for the Company's 16 Idaho Advanced Meter Reading (AM) proj ect.I have 17 recently accepted the position of Manager of Customer 18 Service. 19 Q.What is the scope of your testimony in this 20 proceeding? 21 A.My testimony will describe implementation of AM 22 for Avista' s customers in the State of Idaho. The Company 23 requests recovery of capital expenditures related to the 24 deploYment of AM in idaho. Per Commission Order No. 30229, 25 I will address the status of the current AM program, cost Paulson, Di 1 Avista Corporation 1 recovery proposal, time of use capability and demand 2 response. 3 Q.Are you sponsoring any exhibi ts in this 4 proceeding? 5 A.Yes. I am sponsoring Exhibit No. 12, Schedules 1 6 and 2, which were prepared under my direction. 7 Q.Please provide a list of acronyms/definitions 8 that pertain to the verbiage contained within this 9 testimony. 10 A.The following is a list of acronYms and their 11 definitions contained within this testimony: 12 AM - Advanced Meter Reading - The components13 necessary to read a meter remotely using technology 14 to retrieve meter-reading data through a handheld15 device, a mobile collection system, or a one-way 16 communication network. 1718 AMI - Advanced Metering Infrastructure19 Industry terminology to better reflect the 20 transition from AM to systems with expanded 21 capabili ties of two-way communication networks. 22 AMI systems measure, collect, and analyze energy 23 usage information from advanced metering devices 24 through various communication media. The25 infrastructure includes hardware, software, 26 communications equipment, customer associated 27 systems and data management software. 2829 Mobile Collection System - Mobile Wireless Unit30 used to collect consumption readings from electric31 and natural gas meters. 32 33 Manual Meter-Reading System - The software package34 and handheld equipment that facilitates a manual35 meter reading process. This consists of the36 handheld devices that are used to collect the37 existing meter-reading data and the software to 38 feed the information to the Customer Service39 System. Paulson, Di 2 Avista Corporation 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 PLC - Power-Line-Carrier - A system by which communications are transmitted and received over distribution level power lines. Radio-Based Technology A communications are transmitted radio frequencies. sys tem by whichand received via TWACS'l - Two-Way Automated Communication System - The AMR system Avista installed in lower electric meter density areas of our service territory. Thesystem uses power-line-carrier technology to communicate with the meter. II. BACKGROUN Q.What was the Company's proposal for AM in its 18 last general rate proceeding? 19 A.In 2004, in the Company's last general rate case 20 filed with the Idaho Public Utilities Commission (IPUC), 21 Case Nos. AVU-E-04-01 and AVU-G-04-01, the Company proposed 22 to install AMR devices on all Idaho electric and natural 23 gas meters over a four-year period commencing January 2005. 24 The project included the installation of additional 25 electronics for existing meters as well as other 26 communication infrastructure, and finally computer hardware 27 and software investment. 28 Due primarily to the multi-year nature of this 29 project, the Company proposed to treat the AM investment 30 costs in the following manner:All capital investment 31 would follow Avista' s standard capitalization policy and 32 would be capitalized to a regulatory asset, FERC account Paulson, Di 3 Avista Corporation 1 182, and remain there until the entire AM proj ect became 2 operational, or used and useful.At completion, the 3 proj ect would be placed into the appropriate FERC plant 4 accounts, depreciation would begin and the investment would 5 receive appropriate rate base treatment in regulatory 6 filings. 7 In the I PUC 's Order No. 29602, in Case Nos. AVU-E-04- 8 01 and AVU-G-04-01, dated October 8, 2004, at page 51, the 9 Commission supported the Company's plans to install AM and 10 authorized the Company- reques ted deferral accounting 11 treatment requested by the Company for its related 12 investment. 13 14 15 III. PROJECT SUMY Q.What is the current status of the Company's AM 16 in Idaho? 17 A.In 2005, the Company began a four-year project to 18 convert all natural gas and electric meters to AMR in the 19 State of Idaho. As of this filing, nearly 180,000 natural 20 gas and electric meters have been automated. Over 139,000 21 natural gas and electric meters were automated using radio- 22 based technology and 40,000 were automated utilizing power 23 line carrier (PLC) technology.Currently, approximately 24 27,000 electric and natural gas meters utilizing radio- 25 based technology are read automatically by a radio-based Paulson, Di 4 Avista Corporation 1 network and 112,000 are read through a mobile collection 2 system.Of the 112,000 meters that are being read on the 3 mobile collection system, all electric and the majority of 4 the natural gas meters will be converted to a radio-based 5 network in 2008.There are a small numer of natural gas 6 meters that reside in areas where Avista does not have 7 electric service or reside in the PLC areas that will 8 continue to be read by the mobile collection system. 9 Electric meters on the PLC system are read automatically, 10 and do not require a meter reader or mobile unit to collect 11 the meter reading. Exhibit No. 12, Schedule 1 is a map of 12 the Company's Idaho AM installations. 13 Q.Please explain how the mobile collection system 14 works. 15 A.The mobile collection system works by having a 16 meter reader drive an automobile equipped with a wireless 17 mobile collection system that gathers consumption data from 18 radio-based meters. A mobile collection system can gather 19 up to 10,000 reads per day in dense areas.In contrast, 20 tradi tional meter reading would typically read between 500 21 - 700 meters per day in this same area.Al though the 22 mobile collection system does not provide interval data, it 23 does offer the benefits of increased operational 24 efficiencies and enhanced employee safety. Paulson, Di 5 Avista Corporation 1 Q.Please describe the Company's meter deployment of 2 AM in Idaho. 3 A.Prior to beginning the deploYment of the Idaho 4 AM proj ect the Company solicited a competi ti ve bid for 5 contract installations of electric and gas meters.Tru- 6 Check was the successful bidder, and had previously been 7 awarded the installation contract for an AM project that 8 the Company conducted in its Oregon service territory. 9 Tru-Check was responsible for installation of more than 95% 10 of the meters associated with the project.Meters with 11 special requirements such as commercial and three phase 12 meters were handled by the Company.Tru -Check provided 13 onsite project managers and hired installers from the local 14 areas.Installers were put through extensive training and 15 then were evaluated through Tru-Check i s quality assurance 16 plan.Tru-Check provided a service to handle any claims 17 made by customers during the installation process. To date 18 only one commission complaint was received associated with 19 the proj ect that installed over 180,000 meters. 20 Q.How did you communicate the meter change with 21 customers? 22 A.A comprehensive communication plan was developed 23 internally and shared with the IPUC Staff for review prior 24 to implementation. Paulson, Di 6 Avista Corporation 1 Q.Please sumrize the Company's perspective on AM 2 and AMI. As the Company has progressed with its four-year 4 deploYment of AM in our Idaho service terri tory, there 3 A. 5 have been many advances in the AM industry, as well as 6 increased interest in Advanced Metering Infrastructure 7 (AMI) 1 from utili ties across the nation.Many large 8 utili ties across the nation are deploying pilot AMI systems 9 and working on proposals for large scale deploYment of AMI 10 systems.There are a numer of utilities that are still 11 focused on deploYment of AM systems because of the value 12 proposition represented by AMR systems.AMI sys tems tend 13 to be more capital intensive and the corresponding benefits 14 of these systems are continuing to develop.In conjunction 15 with the focus on AMI systems, the functionality of AM 16 systems continue to be enhanced and offer additional 17 functionality. An example is the progression from a drive- 18 by reading system to a network system that provides the 1 Definiton of Advanced Metering Infrastructure (as defined by Utiity AMI group) An advanced meterig inastrctue is a comprehensive, integrated collection of devices, networks, computer systems, protocols and organzational processes dedicated to distrbutig highy accurate informtion about customer electrcity and / or gas usage thoughout the power utiity and back to the customers themselves. Such an infrastrctue is considered "advanced" because it not only gathers customer data automatically but does so securely, reliably, and in a tiely fashion while adherig to published, open stadards and permttg simple, automated upgrading and expanion. A well-deployed advanced meterig inastrctue enables a varety of utility applications to be performed more accurately and effciently includig tie-differentiated taffs, demand response, outage detection, theft detection, network optimation, and maket operations. Paulson, Di 7 Avista Corporation 1 means to read the meters more frequently than once per 2 month. 3 Q.What technology or type of AM devices did the 4 Company install for its electric meter system? 5 A.The Company utilized a combination of AMR 6 technologies in its Idaho service terri tory commonly known 7 as a "hybrid" AM system.We installed radio-based 8 technology in areas with higher meter densities, and a PLC 9 based technology in areas with lower densities.We 10 continue to use telephone-based technologies for selected industrial accounts.A numer of factors determined where11 12 each technology was utilized including geography, 13 distribution configuration, installation costs and the 14 presence of natural gas.All electric meter technologies 15 have the capability to provide hourly or more frequent interval data.Meters utilizing a radio-based technology16 17 were initially read monthly through a mobile device.In 18 selected areas (Sandpoint and Moscow) we have installed a 19 fixed radio communication network to fully evaluate the 20 network technology and the future uses of the interval data 21 available from the system.The Company will continue the 22 deploYment of this fixed radio communication network in the 23 remaining areas of Idaho currently being read by the mobile 24 collection system in 2008 with the exception of a small 25 numer of natural gas meters as mentioned previously. The Paulson, Di 8 Avista Corporation 1 PLC electric meters that were installed are also capable of 2 providing interval data and are also being evaluated for 3 future uses of the interval data. 4 Q.What technology or type of AM devices did the 5 Company install for its natural gas meter system? 6 A.The Company installed radio-based technology on 7 all natural gas meters and they are being read monthly by a 8 mobile device.Since natural gas meter installations are 9 inherently different than electric meter installations, 10 some options available for electric meters were not 11 economically viable or applicable for natural gas meters. 12 This is particularly true in rural areas where it would 13 require the deploYment of two separate technologies.By 14 installing radio-based endpoints and reading the meters by 15 a mobile device, the identified savings in meter reading 16 expenses can be realized.Where practical, natural gas 17 meters will be read by the fixed radio communication 18 network. 19 Q.What other AM systems did the Company review 20 prior to selecting the deployed technology? 21 A.Prior to the initiation of the Idaho AM project, 22 Avista had evaluated several advanced metering systems. 23 Avista had installed over 74,000 radio and 350 PLC based 24 AM devices throughout Washington, Oregon and California 25 including 1,700 within the State of Idaho.Our supplier Paulson, Di 9 Avista Corporation 1 for radio-based equipment had been Itron, based in Liberty 2 Lake, washington.We had utilized Hunt Technologies for 3 PLC based technology. 4 Due to the past performance of the Itron radio-based 5 equipment and the ability of their systems to be deployed 6 in a drive-by environment that could later be converted to 7 a fixed radio-based network, their equipment was selected 8 for the higher meter density areas of our service 9 territory.For the lower meter density areas of our 10 service territory we evaluated PLC technology and selected 11 Aclara' s TWACS'l system. 12 13 14 iv. AM FUCTIONS AN BENEFITS Q.Describe the benefits that were realized by the 15 Company and its customers due to the implementation of AM. 16 17 A.From 1995 to 2003, meter reading expenses in Idaho increased an average of 4.8% each year.In addition 18 to direct meter reading savings compared to manual meter 19 reading, this technology provides the foundation for later 20 adoption of retail electric energy pricing that may vary by 21 hour of the day or day of the week.This type of pricing 22 can ultimately be used to provide customers economic 23 incentives to curtail usage during critical energy periods. 24 The electric meter equipment Avista installed will provide 25 interval metering data, as well as indications of tampering Paulson, Di 10 Avista Corporation 1 and information on outage conditions.These additional 2 functionali ties of the system are continually being 3 evaluated in an effort to determine how best to integrate 4 into our existing business systems.An example is the 5 ongoing development of a means to integrate the PLC system 6 meters into our existing outage management system in an 7 effort to improve our outage and restoration processes. 8 This equipment is not intended to provide aggregated 9 demands for tariff calculations ¡however, it will enhance 10 Avista' s ability to provide consolidated billing statements 11 for customers with multiple accounts. 12 AM helps eliminate the need for estimated reads, 13 reduces the volume of phone calls associated with estimated 14 reads and the need for investigations related to such 15 16 calls.Customer billing will be more accurate because estimates and misreads will be reduced.The actual 17 metering accuracy will not be affected by this automated 18 system and will continue to be monitored through our 19 periodic sampling program. 20 Additionally, information obtained through a networked 21 AM system will be of value in determining more efficient 22 specifications for distribution equipment used to serve 23 Avista' s customers. 24 A networked AM system could also provide information 25 to help manage operations during outages and may prevent Paulson, Di 11 Avista Corporation 1 extended customer outages. Additional software (which has 2 not been installed, but can be added later) could allow 3 customers on-line access to hourly load profile data, which 4 would allow them the opportunity to better manage their 5 electric consumption.Since all residential electric 6 meters have been updated with new solid state meters, 7 customers will now be able to easily read kWh consumption 8 values directly from the meter's liquid crystal display 9 (LCD) readout. 10 Q.What other advantages are associated with AM 11 technology? 12 13 A.Deploying AM technology could provide opportunity for operational savings by reducing or 14 eliminating both regular and after-hours service calls due 15 to reconnecting or disconnecting service at the meter.In 16 the case of an after-hours reconnect, the service can be 17 remotely activated within minutes as opposed to hours in 18 the more remote areas, thus providing faster response to 19 customers and eliminating the need to send a service person 20 to the premise on overtime. 21 Increased employee safety is also an advantage. 22 Dangerous pets, treacherous driving conditions, obstructed 23 and unsafe meter access and potentially confrontational 24 customer contacts can be greatly reduced by utilizing this 25 technology . Paulson, Di 12 Avista Corporation 1 Q.Does this system provide the capability for 2 future Time-of-Use or critical peak pricing? 3 A.Yes.As described above,this technology 4 provides the capability for the remote capture of electric 5 interval meter readings in intervals of one hour or less. 6 The significance of capturing interval readings is that it 7 provides the foundation for later adoption of retail energy 8 pricing that may vary by hour of the day or day of the 9 week.This type of pricing can ultimately be used to 10 provide economic incentives to customers to curtail usage 11 during critical energy periods. 12 Al though this proj ect scope did not include the 13 necessary modifications to our billing system to implement 14 a time of use or critical peak rate structure, the meters 15 that have been installed are capable of providing the field 16 data necessary to support this type of system in the 17 future. 18 Q.Does AM technology allow the Company to evaluate 19 Demnd Response programs? 20 A.Yes. Data gathered from the AM technology 21 deployed will allow evaluation of the Company's Demand 22 Response programs. The Company's approved tariff Schedule 23 96 "Energy Load Management Programs pilot" offers 24 residential and commercial demand response programs in 25 portions of Sandpoint and Moscow for a two-year period. Paulson, Di 13 Avista Corporation 1 Internet protocol thermostats, direct control units and 2 related technology are being installed to reduce energy 3 usage at peak times of the year and to allow the Company to 4 gain experience with customer acceptance, program design, 5 operational components, and cost-effectiveness. 6 7 8 v. COSTS Q.What was the cost to install this system in 9 Idaho? 10 A.The total capital expenditures to install this 11 system in Idaho are projected to be $28.8 million by the 12 completion of full system deploYment at the end of 2008. 13 Please refer to Table 1 below that provides a breakdown of 14 the costs associated with the AM system deploYment on a 15 yearly basis. 16 Table 1 2005 2006 2007 2008 Tota/** Total Meters 112,144 23,627 43,996 Balance* Cost $6,914,502 $5,930,636 $5,028,807 $3,OQ7,370 $20,881,315 Allocation of Fixed CompanyO/H AFUDC $1,273,844 $689,056 $511,433 $300.737 $2,775,070 $221,447 $1,041,305 $1,772,994 $2,070,068 $5,105,814 Idaho Capital Expenditures $8.409,793 $7.660.997 $7 313.234 $5.378.175 $28:762.199 *Remaining Fixed Network Installations and Remaining Commercial Meters **Total amount represents costs through 2008. The Company anticipates an additional cost in 2009 to optimize the system. Paulson, Di 14 Avista Corporation 1 Q.Does the Company expect to incur additional costs 2 in 2009 and how will they be accounted for? 3 A.The Company plans to deploy the remaining 4 infrastructure for the fixed radio communication network in 5 2008.Based on the technology that was available in the 6 early deploYment of the project it is anticipated that 7 there will be network optimization2 activities to insure 8 that the system is reading all meters.Due to the 9 iterative nature of deploying the infrastructure, it is 10 anticipated that there will be additional costs incurred in 11 2009 to optimize the system.These costs will be 12 capi talized to plant in service as they become used and 13 useful and will be accounted for and recovery sought in 14 future rates. 15 Q.How do the current costs of the AM system 16 compare to the estimates developed in 2003? 17 A.Exhibit 12, Schedule 2 provides a reconciliation 18 of the estimated cost of $28.8 million to the preliminary 19 cost estimate of $16.3 million. This exhibit identifies the 20 adjustments necessary to reflect an "apples-to-apples" 21 comparison to the preliminary estimate, and to reflect cost 2 Network Optization - In the early stages of AM deployment, only low power output radio frequency meters were available. In later stages of the deployment the power output of the radio frequency meters was increased substatially. Experience has shown that when deployig a network over the low power meters, network optimzation wil have to occur. The optization may tae the form of moving or adding network components. In other cases, the only alterntive may be to replace the low power radio frequency meters with high power versions. Paulson, Di 15 Avista Corporation 1 changes due to design changes during implementation over 2 the past four years.The comparison shows that the 3 adjusted current estimate is 13.8% higher than the 2003 4 preliminary cost estimate. 5 Q.Please explain the adjustments reflected on 6 Exhibi t 12, Schedule 2. 7 A.As noted in the Company's direct testimony of 8 David D. Holmes in the 2004 filing, the preliminary 9 estimate was based on 2003 dollars. It was also noted that 10 the selection of appropriate technologies and vendors, as 11 well as refinement of cost estimates would take place in 12 2004. Specific adjustments reflected on the exhibit are as 13 follows: 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 . Customer growth from 2003 to the end of the project in 2008. . Additional PLC meters required instead ofradio-based. . Solid-state electric meters versus retrofittingelectromechanical meters. . Actual fixed Company overhead costs that wouldhave been absorbed through other capi tal proj ects if AM had not been deployed, and which were not reflected in the preliminary 2003estimate. . Actual AFUDC which was not reflected in the preliminary 2003 estimate. . 2005-2008 actual costs vs. 2003 nominal dollars reflected in the preliminary estimate. Q. Please provide further elaboration on the changes 31 during the course of deploying AM? 32 A.One of the changes was the increase in the numer 33 of customers in our Idaho service territory from the Paulson, Di 16 Avista Corporation 1 initial estimate in 2003 to the end of the project in 2008. 2 The initial projections were based on a customer base of 3 approximately 171,000. As of this filing the customer base 4 is approximately 194,000. 5 Another change that caused higher proj ect costs was 6 the numer of meters that were deployed on the PLC system. 7 Preliminary projections were approximately for 28,000 8 meters. After more detailed system analysis was performed 9 in regard to substation configurations and operational 10 considerations, the numer of PLC meters deployed exceeded 11 40,000.The PLC system components are inherently more 12 costly than the radio-based systems, but are the only 13 viable solution in these lower meter density areas, for 14 reasons explained above. 15 Another component that caused higher proj ect costs was 16 the determination to utilize solid state meters versus 17 retrofitting electromechanical meters with a radio-based or 18 PLC module. Just prior to the beginning of the project, an 19 indus try-wide transition was being made away from 20 electromechanical meters to solid state meters. In an 21 effort to guard against technological obsolescence, Avista 22 also made the transition to solid state meters. 23 Q.Are there benefits surrounding the decision to 24 adopt solid state metering in Idaho? Paulson, Di 1 7 Avista Corporation 1 A.Yes, these meters are more customer-friendly by 2 incorporating a digital display that is much easier to read 3 rather than a series of dials.Solid state meters also 4 provide a single self-contained unit that eliminates moving 5 parts.The most significant benefit was avoiding 6 technological obsolescence as discussed previously. During 7 the course of this proj ect deploYment, the market for 8 electromechanical meters has diminished significantly. 9 Very few if any current deploYments of AMR/AMI are 10 utilizing retrofit electromechanical meters. 11 Q.What is the overall impact of AM to Idaho 12 customers in this filing? 13 A.Including the capital costs associated with AM 14 through the end of 2008 in rates will translate into an 15 addi tional electric revenue requirement of $3,636,000, and 16 is part of the overall revenue request increase of 17 $32,328,000 in this case.It will also translate into an 18 additional natural gas revenue requirement of $1,091,000, 19 and is part of the overall revenue request increase of 20 $4,725,000 in this case. This is reflected in Company 21 witness Ms. Andrews' testimony and exhibits. 22 Q.What are the reductions in expense associated 23 with the AM installation? 24 A.The reduction in meter reading staff and related 25 transportation expenses are a result of the installation of Paulson, Di 18 Avista Corporation 1 the AMR system.Annual meter reading costs (FERC account 2 902) declined approximately $545,000 for electric service 3 and $323,000 for natural gas service from 2004 to 2007. 4 In order to determine the estimated impact of AM to 5 Idaho customers over the expected service life of the 6 equipment, it has been assumed that traditional meter 7 reading costs would have escalated at an average of 3.5% 8 per year going forward from 2009, the rate year for the AM 9 proposal in this case.In other words, from an avoided 10 cost perspective, had AM not been installed in Idaho, the 11 Company assumed that a 3.5% average cost escalation for 12 tradi tional meter reading practices will have continued into the future in order to reflect labor and13 14 transportation cost increases.Given this assumed 15 escalation over time, the cost savings associated with the 16 elimination of tradi tional meter reading practices 17 approximate $16.5 million over 20 years for electric 18 service and approximate $6.7 million over 15 years for 19 natural gas service. The Company assumed that the expected 20 life of the solid state electric meters is 20 years, 21 therefore the expected meter reading savings related to the 22 electric AM system were calculated over 20 years.The 23 Company also assumed that the expected life of the ERT 24 modules installed on gas meters will have an average life 25 expectancy of 15 years, therefore the meter reading savings Paulson, Di 19 Avista Corporation 1 related to the gas AM system were calculated over 15 years 2 as well. 3 Q.Has the Company reflected cost savings already 4 realized with AM in its pro form case? 5 A.Yes. The savings in meter reading expense due to 6 reduced labor and transportation were all realized by the 7 2007 test year. 8 Q.Do these cost savings reflect other non- 9 quantified benefits discussed previously? 10 A.No, they do not.There have been a variety of 11 non-quantified benefits as described above. These include: 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 . provides the foundation for later adoption of retail electric energy pricing that may vary by hour of the day or day of the weeki . provides interval metering datai . will provide indications of tampering andinformation on outage conditions i . enhances Avista' s ability to provide consolidated billing statements for customers with multiple accountsi . eliminates the need for estimated reads i . improves accuracy of customer billing because estimates and misreads will be reducedi . information obtained will be of value in determining more efficient specifications fordistribution equipment used to serve Avista' scustomersi . helps to manage operations during outages and may prevent extended customer outagesi . reduces or eliminates both regular and after- hours service calls due to reconnecting or disconnecting service at the meter i . provides safer environment for our customers andemployees ¡and . allows evaluation of the Company's Demand Response programs. Paulson, Di 20 Avista Corporation 1 Q.Does 2 testimony? 3 A.Yes, it does. this conclude your pre-filed direct Paulson, Di 21 Avista Corporation 1'!'CDl "J t. DAVID J. MEYER VICE PRESIDENT, GENERAL COUNSEL, GOVERNENTAL AFFAIRS AVISTA CORPORATION P.O. BOX 3727 1411 EAST MISSION AVENUE SPOKAE, WASHINGTON 99220-3727 TELEPHONE: (509) 495-4316 FACSIMILE: (509) 495-8851 "lfìM' ADri - q I?r'l \:, 08(.uUU Hi 1\ .. . REGULATORY~ Ln':':~;,;';:.'" . BEFORE THE IDAHO PUBLIC UTILITIES COMMISSION IN THE MATTER OF THE APPLICATION ) CASE NO. AVU-E-08-01 OF AVISTA CORPORATION FOR THE ) CASE NO. AVU-G-08-01 AUTHORITY TO INCREASE ITS RATES ) AN CHAGES FOR ELECTRIC AN ) NATURA GAS SERVICE TO ELECTRIC ) EXHIBIT NO. 12 AN NATURA GAS CUSTOMERS IN THE )STATE OF IDAHO ) GREG A. PAULSON ) FOR AVISTA CORPORATION (ELECTRIC AN NATURA GAS) .. l . ''I Sl110i l lil ~(I ~+o(I c:~~(I:J (I0+o.¡:C"(I +o (I ~0 :i en (I u.en-ctc:W 00.-(!-"C U--ct ct ..-+-+o ct ca ~0 a:a.+o-I-0-0 0 ca (I 0 0 l- +-+o 0 LO LO I en (I~0 .... c:('0 0-0 f'~00.. 0 .-~0:i .. .c +o ,.CO0,.CO ca (I-..""W-. ,. .. i ... ·I ., I bc0fIai C) I ..C ~~'~Z c 16 aiWQ)0 C);:;: W ~~l..U.u. .2 .2 .. ~~la.... Exhibit No. 12 Case Nos AVU-E-08-01 & AVU-G-08-01 G. Paulson, Avista Schedule 1, p. 1 of 1 AVISTA UTILITIES Advanced Meter Reading Project Costs Estimated Cost of AMR through December 31, 2008 Less: 1) Meter Installations for new Customers 2) Additional PLC Meters Required Instead of Radio-Based 3) Solid State vs. Electromechanical Meters 4) Allocation of Fixed Company O/H 5)AFUDC Total Adjusted Costs 2003 Preliminary Estimate 6) Difference in Estimate Based on "Apples-to-Apples" Comparison Percent of Preliminary Estimate $28,762,199 635,000 1,100,000 600,000 2,775,070 5,105,814 $18,546,315 $16,300,000 $2,246,315 13.8% 1) Increase in the number of customers in our Idaho service territory from the initial estimate in 2003 to the end of the project in 2008. The initial projections were based on a customer base of approximately 171,000. As of this filng the customer base is approximately 194,000. 2) Higher project costs due to the number of PLC meters that were deployed on the system. Original projections were approximately for 28,000 meters. After more detailed system analysis was performed in regard to substation configurations and operational considerations, the number of PLC meters deployed exceeded 40,000. The PLC system components are inherently more costly than the radio-based systems, but are the only viable solution in these lower meter density areas, for reasons explained in the testimony. The additional costs include the higher costs of the meters and the labor associated with the installation. Further costs include the number of additional substations requiring the PLC communication equipment. 3) Determination to utilze solid state meters versus retrofitting electromechanical meters with a radio-based or PLC module. Just prior to the beginning of the project, an industry-wide transition was being made away from electromechanical meters to solid state meters. In an effort to guard against technological obsolescence, Avista also made the transition to solid state meters. 4) The preliminary estimate included the cost of installing the system, and did not include an allocation of fixed company overheads. 5) The preliminary estimate included the cost of installing the system, and did not include AFUDC. 6) The preliminary estimate was made using 2003 nominal dollars. Actual costs reflect increases due to inflation since the 2003 preliminary estimate. The Company also noted in its testimony from the last rate case that the estimate was "initial" or preliminary, and noted that, "Specific system design, vendor evaluation and selection will take place in 2004." Exhibit No. 12 Case Nos A VU-E-08-01 & A VU-G-08-01 G. Paulson, Avista Schedule 2, p. 1 of 1