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20220930Bui Direct with Exhibits.pdf
Preston N. Carter (ISB No. 8462) Morgan D. Goodin (ISB No. 11184) Givens Pursley LLP 601 W. Bannock St. Boise, ID 83702 Telephone: (208) 388-1200 Facsimile: (208) 388-1300 prestoncarter@givenspursley.com morgangoodin@givenspursley.com Attorneys for Veolia Water Idaho, Inc. BEFORE THE IDAHO PUBLIC UTILITIES COMMISSION OF VEOLIA WATER IDAHO, INC. FOR AUTHORITY TO INCREASE ITS RATES AND CHARGES FOR WATER SERVICE IN THE STATE OF IDAHO BEFORE THE IDAHO PUBLIC UTILITIES COMMISSION DIRECT TESTIMONY OF ANN T. BUI SEPTEMBER 2022 Bui, Di 2 Veolia Water Idaho, Inc. INTRODUCTION 1 Q. Please state your name, occupation, and business address. 2 A. My name is Ann Bui, and I am a Managing Director with Black & Veatch 3 Management Consulting LLC (“Black & Veatch”), responsible for the firm’s Water 4 Advisory Practice. I am testifying on behalf of Veolia Water Idaho, Inc. (“VWID” 5 or the “Company”) in this case. Black & Veatch is headquartered at 11041 Lamar 6 Avenue, Overland Park, Kansas. 7 Q. Please summarize your educational background and professional experience. 8 A. As detailed in my attached resume (Appendix A), I am a Chemical Engineer by 9 training at the University of British Columbia, Canada, and the University of 10 California at Los Angeles. My Master of Business Administration from the 11 University of California at Davis specializes in Finance and Organization 12 Management. 13 My experience includes helping utilities with organizational effectiveness 14 studies, reducing carbon footprints for energy-intensive activities, addressing 15 affordability and assistance program needs, quantifying the financial impact of 16 deferred asset maintenance, and developing innovative approaches for structuring 17 alternative delivery projects using private and public financing instruments. During 18 my 32-year career, I have worked on more than 450 engagements, providing 19 financial and business planning services for public and investor-owned utilities of 20 all sizes. These services have spanned all aspects of rate filings, from revenue 21 requirements to cost of service and rate design. 22 Bui, Di 3 Veolia Water Idaho, Inc. Over the past two decades, I have provided expert witness testimony in front 1 of the California Public Utilities Commission, the Indiana Utilities Regulatory 2 Commission, and the Kentucky Public Service Commission. For long-standing 3 clients such as the Philadelphia Water Department and Washington Suburban 4 Sanitary Commission, I have testified before utility rate commissions in numerous 5 rate filings on cost-of-service matters. I have also provided expert witness 6 testimony supporting litigation matters for the City of San Diego, CA, Greater 7 Cincinnati Water Works, the City of Baton Rouge, LA, the City of Atlanta, GA, 8 and the City of Holland, MI. 9 I am a long-standing member of several industry associations that are key 10 to developing and providing guidance to the rate-making community. As an active 11 member of the American Water Works Association (AWWA), the National 12 Association of Water Agencies, and the Water Environmental Federation (WEF), I 13 have served in the following leadership positions: 14 ● Past Chair of AWWA’s Finance, Accounting, and Management Controls 15 (FAMC) Committee (3 years) 16 ● Vice-Chair of FAMC (3 years) 17 ● Member of AWWA’s Rates and Charges (R&C) and FAMC committees 18 o Co-Chair of Publications Subcommittee (Joint R&C and FAMC) 19 o Vice-Chair of R&C Rate Design subcommittee 20 o Member of R&C Water Reuse subcommittee 21 o Member of R&C System Development Charges subcommittee 22 o Member of R&C Executive Committee 23 Bui, Di 4 Veolia Water Idaho, Inc. o Chair for current revision to AWWA’s M29 Manual, Water Utility 1 Capital Financing 2 In addition to serving on industry committees, I have also contributed as an 3 editor, author, and reviewer for AWWA’s M1-Principles of Water Rates, Fees and 4 Charges (6th and 7th editions, and the currently under development, 8th edition); 5 WEF’s Manual of Practices 27- Financing and Charges for Wastewater Systems 6 (3rd and 4th editions), and WEF’s User-Fee-Funded Stormwater Program. 7 Q. What is the purpose of your testimony? 8 A. The purpose of my testimony is to provide a cost-of-service overview and describe 9 the methodology and results of the Black & Veatch’s Cost of Service Study (COSS) 10 prepared for this proceeding. 11 Q. Please identify the supporting schedules provided with your testimony. 12 A. Black & Veatch is sponsoring Exhibit 14 with the following schedules: 13 Exhibit 14-1 summarizes the COSS and compares the cost of service, by 14 customer class, with revenues under existing and proposed rates. The schedule 15 also presents the COSS increase by customer class. 16 Exhibit 14-2 summarizes the distribution of test year operation and 17 maintenance (O&M) expenses, depreciation expense, taxes, return, and rate 18 base to the customer classes. 19 Exhibit 14-3 presents the distribution of O&M, depreciation, taxes, return, and 20 rate base to the functional cost components. 21 Exhibit 14-4 illustrates the allocation of demand-related fire service costs to 22 private and public fire customers. 23 Bui, Di 5 Veolia Water Idaho, Inc. Exhibit 14-5 (a-c) presents the development of charges for the 5/8” meter, billed 1 consumption, and private fire service. 2 Exhibit 14-F presents the allocation factors used in the COSS. 3 COST OF SERVICE OVERVIEW 4 Q. What is the purpose of a Cost-of-Service Study? 5 A. The purpose of a cost-of-service study is to analyze the assignment of cost 6 responsibility to customers serviced and to guide the development of rates in rate 7 cases. As it is neither economically practical nor often possible to determine cost 8 responsibility and applicable rates for each individual customer, rate practitioners 9 conducting a cost-of-service analysis use groups or classes of customers with 10 similar water-use characteristics for cost allocations. Ratemaking endeavors to 11 assign costs to classes of customers in a non-discriminatory, cost-responsive 12 manner so that rates can be designed to meet the cost of providing services to 13 customer classes. 14 Q. Was the Cost-of-Service Study in this proceeding consistent with Generally 15 Accepted Industry Guidelines? 16 A. Yes. The cost-of-service analysis conducted by Black & Veatch utilizes a cost-17 causative approach endorsed by AWWA’s Principles of Water Rates, Fees, and 18 Charges, Manual of Water Supply Practices M1 (M1 Manual). The methodology 19 produces cost of service allocations recognizing the projected customer service 20 requirements for the Company. Proposed rates are designed according to allocated 21 service costs and local policy considerations. Furthermore, the methodology used 22 Bui, Di 6 Veolia Water Idaho, Inc. in the COSS is consistent with the approach agreed to by the Company and the 1 Idaho Public Utilities Commission (PUC) in prior rate proceedings. 2 Q. Please describe the various components of a COSS. 3 A. Essentially, a COSS consists of three parts that can be summarized as follows: 4 ● Revenue and Revenue Requirements. Rates and charges should generate 5 adequate revenues to meet the operating and capital costs and provide for the 6 utility's financial stability. Under this step, we project the Company’s test year 7 revenues under existing rates and compare them to the projected test year 8 operational and capital needs. 9 ● Cost of Service. The cost-of-service analysis evaluates the existing utility and 10 the relative load placed on the utility by the different customer classes to 11 allocate costs based on services received fairly. The cost-of-service analyses 12 consider the functional aspects of utility operations and cost components such 13 as base, extra-capacity, meter, customer, and other direct costs. This step 14 provides a means of apportioning costs and the overall return to each customer 15 class. 16 ● Rate Design. Under this step, we develop rates and charges that reflect cost-of-17 service principles and the Company’s goals and objectives. 18 COST OF SERVICE AND RATE DESIGN 19 Q. Please summarize Black & Veatch’s COSS. 20 A. Black & Veatch’s cost-of-service analysis uses the Base-Extra Capacity method 21 and methodology accepted by the PUC in past proceedings. The M1 Manual 22 Bui, Di 7 Veolia Water Idaho, Inc. recognizes the Base-Extra Capacity approach as an acceptable means of 1 determining the costs of service. 2 Under the Base-Extra Capacity method, the identified revenue requirements 3 are allocated to functional cost components. Simply put, functional cost 4 components can be considered activities that drive costs. For the COSS, these 5 functional cost components are Average Daily Use, Maximum Day Use, Maximum 6 Hour Use, Meters, Services, Billing & Collection, and Fire Protection. 7 Next, we identify the billing determinants for each customer class by 8 functional cost component. After this is completed, the functional costs are 9 allocated to the residential, commercial, public authority, and fire protection 10 customer classes based on the number of units calculated in Step 2. Finally, we 11 determine the revenue gap between the cost of service and revenues under existing 12 rates for each class. 13 Q. Does the cost of service by customer class presented in the COSS reflect the 14 actual Test Year and Test Period data presented in the filing? 15 A. Yes. Black & Veatch used the revenue requirements in this proceeding and 16 allocated them to the functional cost components and customer classes using 17 factors and ratios that reflect current operations and requirements. The System 18 maximum day and hour ratios and those for the residential, commercial, and public 19 authority classes are based on Black & Veatch’s Customer Class Load Study (Load 20 Study), which is included in Appendix B. 21 Q. Please describe any major findings of the Load Study. 22 Bui, Di 8 Veolia Water Idaho, Inc. A. The Load Study results indicate that the System maximum day ratios are consistent 1 with the Company’s ratios based on correlating the highest annual maximum water 2 production day for the last ten years. Moreover, the Load Study found that although 3 each customer class had distinct maximum day and maximum hour ratios, the 4 system-wide diversity factors are slightly below the typical range cited in the M1 5 Manual of 1.10 to 1.40. In other words, water conservation efforts, commercial 6 irrigation patterns, and storage management have produced a system whereby all 7 customer classes peak at close to the same time (coincident peaking). 8 Consequently, the benefits of non-coincidental peaks provided by different classes 9 are substantially reduced. This observation supports the Company’s belief that 10 having one general service rate for all customers is appropriate. 11 Q. Does the Load Study identify new customer classes, such as those with an 12 alternative irrigation source? 13 A. No. The Black & Veatch study examined over a half billion data points gathered 14 via Advanced Infrastructure Metering (AMI) and non-AMI methods. None of the 15 data provided a means to determine which customer accounts have an alternative 16 irrigation source. Short of separating metering the alternative source, there is no 17 way of knowing when customers use the potable water system versus the 18 alternative source on any given day. Moreover, the reviewed data showed no 19 customer classes or groups exhibiting significantly different usage patterns. 20 Q. Please discuss Exhibit 14-1, which summarizes the results of the COSS. 21 Bui, Di 9 Veolia Water Idaho, Inc. A. Exhibit 14-1 shows that for the test year ending March 31, 2023, the total revenue 1 requirement reflects a 23.4% revenue increase. The COSS suggests that the overall 2 average revenue increase by customer class would be: 3 ● Residential – an increase of 27.5% 4 ● Commercial – an increase of 21.8% 5 ● Public Authority – an increase of 2.5% 6 ● Private Fire – a decrease of 62.9% 7 Q. How do the proposed rates set forth in Company witness Tim Michaelson’s 8 testimony differ from those calculated in the COSS? 9 A. As noted earlier, the design of rates should also reflect the Company’s goals to 10 propose rates that fairly reflect the cost of providing service while maintaining 11 gradual shifts in rates that minimize the impact on residential and others. 12 For example, the COSS indicates that private fire protection charges should 13 decrease because of a slight change in required fire durations: The COSS based 14 total fire demand on 1 4-hour, 4,500 gallons per minute (gpm) fire, 1 4-hour, 4,000 15 gpm fire, and 1 2-hour 1,500 gpm fire. This is a change from a total system demand 16 for a 10-hour, 10,000 gpm fire. The Company’s proposed fire sprinkler rates reflect 17 a policy of gradualism and no change to the current fire rate schedule. 18 The Company’s approach concerning General Service rates is consistent 19 with the “across the board” methodology accepted in the 2011, 2015, and 2020 rate 20 proceedings. The proposed increase of 24.1% is comparable across the customer 21 classes, which is why the Company proposes the same approach in this rate 22 proceeding. 23 Bui, Di 10 Veolia Water Idaho, Inc. Q. Please discuss why you believe the proposed revenue increase allocation is fair. 1 A. The Company continues to make substantial infrastructure and operational 2 improvements to the water system. The overall revenue increase reflects the 3 magnitude of these investments and is distributed to all customers in the same, fair 4 manner. 5 Q. Are any changes to the rate structure being proposed in this filing? 6 A. No. 7 Q. Does this conclude your direct testimony? 8 A. Yes, it does. 9 APPENDIX A PROFESSIONAL QUALIFICATIONS OF ANN T. BUI BLACK & VEATCH MANAGEMENT CONSULTING LLC. Bui, Appendix A 2 Veolia Water Idaho, Inc. Ann T. Bui Managing Director Ms. Bui serves as a Managing Director with Black &Veatch’s Global Advisory business. In this role, she oversees all rate and financial planning work for water and wastewater clients. Ann has more than 30 years of experience gained through more than 450 engagements, providing financial and business planning services for public and investor-owned utilities of all sizes. Ann has more than 30 years of experience with clients in North and South America, Europe, and Asia gained through more than 450 engagements, providing financial and business planning services for public and investor-owned utilities of all sizes. Ann’s recent assignments have focused on water scarcity and insecurity; addressing affordability and assistance program needs; quantifying the financial impact of deferred asset maintenance; developing innovative approaches for structuring alternative delivery projects using private and public financing instruments and preparing financial feasibility reports supporting more than $14 billion of revenue bond sales, $4 billion in state revolving fund loans, and over $1 billion of grant applications. Her work on due diligence efforts have supported the successful buy-side/sell-side of water and wastewater assets totaling over $12 billion. Ms. Bui has completed due diligence engagements for entities of many internationally well-established companies such as KKR, Macquarie Capital, Credit Suisse, Morgan Stanley, J.P. Morgan, Goldman Sachs, Bank of America Merrill Lynch, Rothschild, Canada Pension Plan Investment Board, Barclays, Fiera Infrastructure, Alma Global, and PGGM. Over the past two decades, Ms. Bui has provided expert witness testimony in front of the California Public Utilities Commission, the Indiana Utilities Regulatory Commission, and the Kentucky Public Service Commission. She has served as an expert witness in front of utility rate commissions for such clients as the Philadelphia Water Department and Washington Suburban Sanitary Commission. She has also provided expert witness testimony supporting rate litigation matters for the City of San Diego, CA, Greater Cincinnati Water Works, City of Baton Rouge, LA, City of Atlanta, GA, and the City of Holland, MI. An active proponent of advancing the water industry, Ms. Bui is a long-standing member of several industry associations. She is a past Chair of the American Water Works Association (AWWA) Finance, Accounting, and Management Controls Masters, Business Administration, Finance, University of California – Engineering, Engineering, British Columbia, 1986, Canada YEARS EXPERIENCE 32 PROFESSIONAL REGISTRATION License, Engineer-In-Training, PROFESSIONAL ASSOCIATIONS AWWA - AWWA’s Finance, - AWWA’s Strategic – AWWA’s Rates & RELEVANT EXPERTISE Financial & Management Consulting Services; Debt Issuance Support; Elasticity Studies; Cost of Service & Rate Design; Institutional & Organizational Studies; Alternative Financing; Valuations/M&A Bui, Appendix A 3 Veolia Water Idaho, Inc. (FAMC) Committee and is involved with AWWA’s Rates and Charges Committee, the National Association of Clean Water Agency’s (NACWA’s) Utility Management Committee, and with the Water Environment Federation (WEF). Ann serves as an author, editor, and peer reviewer for many of the rate-making industry’s manuals of practice, including AWWA’s M1 – Principles of Water Rates, Fees and Charges, the current update to M1, the current update of WEF’s Manual of Practice 27, Financing and Charges for Wastewater Systems, and WEF’s User-Fee Funded Stormwater Program. She is the lead author and editor of AWWA’s book Financial Management for Water Utilities: Principles of Finance, Accounting and Management Controls. Presently, Ann is the Chair for the update to AWWA’s M29 – Water Utility Capital Financing. REPRESENTATIVE EXPERIENCE Philadelphia Water Department; Water, Wastewater and Stormwater Cost of Service Studies; Pennsylvania; 2003 – 2006; 2017-Present Project Director. Ms. Bui has worked with the City of Philadelphia since 2003 and currently serves as the Project Director for Black & Veatch’s multi-utility cost of service work with the Philadelphia Water Department (PWD). The 2020 Rate Case incorporated program costs for PWD’s long-term control plan, green infrastructure, public-private grants to incentivize stormwat er improvements, and restructuring of the City’s assistance programs. The 2020 Rate Case also included development of a customer assistance rate rider as well as changes in public fire protection cost recovery. Black & Veatch is currently preparing the rate filing for the customer assistance program petition for increasing rates, and a separate reconciliation filing the 2020 Rate Case black-box settlement. Washington Suburban Sanitary Commission; Comprehensive Water and Wastewater Rate Study; Laurel, Maryland, United States; 2016-Present Project Director. Ms. Bui is the project director responsible for Black & Veatch’s engagement with WSSC Water. Since 2016, we have completed numerous assignments with WSSC Water, including conducting a comprehensive water and wastewater rate study, analysis and development of a new overhead cost allocation methodology, creation of miscellaneous fees, and provided litigation support to WSSC on rate- setting matters in front of the Maryland PSC. For the rate study, we performed an analysis of WSSC's current rate structure as well as numerous alternative rate structures and conducted extensive public outreach to a bi-county working group as well as stakeholder groups. Workshops included explanation of the rate-making process, WSSC priorities and goals for rate setting, and discussion of stakeholder issues and concerns. The Black & Veatch team continues to advise WSSC on alternative rate structures as management and the Board consider a new rate structure that better addresses WSSC's goals and objectives. Great Lakes Water Authority; System Water Audit and Units of Service for Non-Master Metered Customers – Phase I; Detroit, Michigan, 2017 Project Director. Ms. Bui served as the Project Director for the first phase of Black & Veatch’s engagement with the Great lakes Water Authority (GLWA). The engagement is entering its 6th year. GLWA provides water to approximately 3.5 million customers in southeastern Michigan, including the City of Detroit and Bui, Appendix A 4 Veolia Water Idaho, Inc. over 100 surrounding communities. Under Phase I, Black & Veatch was hired to develop the Units of Service for communities for which GLWA supplies water, but do not have a master meter. Water Supplies Department; Water Conservation and Loss Analysis, Hong Kong, China; 2016 Technical Reviewer. Ms. Bui is serving as the lead reviewer and subject matter expert for the regulatory and infrastructure governance aspect of Black & Veatch’s engagement with the Hong Kong Water Supplies Department (WSD) as part of a larger Total Water Management program. The WSD supplies more than 7 million people. Under this part of the engagement, Ms. Bui is reviewing recommendations made to improvement the organization’s governance and structure to meet current and future regulatory needs. Sewerage and Water Board of New Orleans; Operations Reports, Comprehensive Financial Planning and Cost of Service Studies and Customer Assistance Program; Louisiana; 2017- Present Project Director. Ms. Bui serves as the Project Director for Black & Veatch’s ongoing engagement for the Sewerage and Water Board of New Orleans. Our work for the Board has been on a continual basis for over 45 years. Services provided include the annual report on operations for water, wastewater, and storm drainage utilities, including evaluation of management, operations, financing and compliance with bond covenants; engineering bond reports; and the development and implementation of the Board’s first comprehensive customer assistance program. Charleston Water Systems; Comprehensive Financial Planning and Cost of Service Studies; South Carolina; 2015-Present Project Director. Ms. Bui serves as the Project Director supporting Black & Veatch’s comprehensive financial services to the Charleston Water Systems. We have provided revenue bond, rate design and other financial service to the Charleston Water Service for several decades. The comprehensive water and wastewater rate study and rate schedules were recently updated in 2018. In addition, contracts with wholesale customers were reviewed and updated. Current work includes asset valuation for specific parts of the water system that are being considered for purchase by an existing customer. American Water Company; Automated Metering Infrastructure Rate Case Support and Water-Budget Rate Setting Expert Witness; California;2016-2019 Project Director. Ms. Bui served as the Project Director for California American Water’s (CAW’s) Rate Case petition for an Automated Metering Infrastructure (AMI) program in front of the California Public Utilities Commission (CPUC). CAW retained Black & Veatch to help support the development of an AMI framework and provide expert witness testimony. As part of the framework, we developed cost estimates for different AMI configurations and evaluated both tangible and intangible benefits of AMI. The CPUC is currently reviewing the petition and Black & Veatch is serving as an expert witness. Concurrent with the work, Ms. Bui served as an expert witness for CAW’s separate CPUC rate petition regarding its water budget-based rate design for the Monterey service area. Bui, Appendix A 5 Veolia Water Idaho, Inc. Midwestern & Eastern US - Water, Wastewater, Stormwater, Solid Waste & Gas Utility Enterprise Financial Planning, Rate & Cost-of-Service Studies, System Development Charges, Indirect Cost Allocations, & Business Planning Activities City of Dayton, OH Greater Cincinnati Water Works, OH Metropolitan Sewer District of Hamilton County, OH City of Mason, OH City of Columbia, OH City of Wyoming, MI City of Detroit, MI Great Lakes Water Authority, MI City of Grand Rapids, MI City of Holland, MI City of Rochester Hills, MI Philadelphia Water Department, PA Philadelphia Gas Works, PA Alleghany County Sanitary Authority, PA Sewerage and Water Board of New Orleans, LA Baton Rouge, LA JEA, FL Florida Governmental Utility Authority, FL City of North Miami, FL Miami-Dade Water and Sewer Department, FL City of Surfside, FL Puerto Rico Aqueduct and Sewer Authority, PR Palmas Del Mar Utilities, PR Northern Kentucky Water District, KY Louisville Water Company, KY Warren County, KY Johnson County Wastewater, KS Unified Government of Wyandotte County, KS WaterOne, KS Kansas City Board of Public Utilities, KS City of Leavenworth, KS City of El Dorado, KS City of Topeka, KS City of Kansas City, MO City of St Louis, Water Division, MO Broken Arrow Municipal Authority, OK Tulsa Municipal Utility Authority, OK City of Jasper, AL City of Highland, IL City of Aurora, IL Thorn Creek Basin Sanitary District, IL City of Bloomington Department of Utilities, IN New Jersey American Water, NJ Suez Water, NY City of High Point, NC City of Raleigh, NC Town of Clayton, NC Johnson County, NC City of Columbus, SC City of Charleston, SC Charleston Water System, SC Beaufort-Jasper Water and Sewer Authority, SC Renewable Water Resources, SC Woodruff Roebuck Water District, SC Gulf Coast Water Authority, TX San Antonio Water System, TX City of Arlington, TX North Texas Municipal Water Authority, TX City of Hudson Oaks, TX City of Taylor, TX Lower Colorado River Authority, TX North Texas Municipal Water District, TX Washington Suburban Sanitary Commission, MD City of Norfolk, VA Bui, Appendix A 6 Veolia Water Idaho, Inc. Western US - Water, Wastewater, Stormwater, & Solid Waste Utility Enterprise Financial Planning, Rate & Cost-of-Service Studies, Indirect Cost Allocations, Management Audits /Organizational Assessment Studies, & Business Planning Activities City of Glendale, AZ City of Phoenix, AZ City of Tucson, AZ City of Flagstaff, AZ City of Scottsdale, AZ City of Henderson, NV City of Las Vegas, NV City of Santa Monica, CA Los Angeles Bureau of Sanitation City of Long Beach, CA City of Orange, CA City of Palo Alto, CA City of Napa, CA City of South Gate, CA City of San Diego, CA County of San Diego, CA Cambria Community Services District, CA Marin Municipal Water District, CA Helix Water District, CA Rancho California Water District, CA Indio Water Authority, CA City of San Clemente, CA City of Soledad, CA San Joaquin County, CA City of Port Hueneme, CA Santa Ynez River Water Conservation District, CA Guam Waterworks Authority City of Salem, OR City of Oxnard, CA City of Los Angeles, Stormwater Division City of San Juan Capistrano, CA City of Downey, CA Camrosa Water District, CA City of Pico Rivera, CA Leucadia Water District, CA City of Orange, CA City of Yuba City, CA City of Antioch, CA Encinitas Wastewater Authority, CA City of Escondido, CA Dublin San Ramon Service District, CA Padre Dam Municipal Water District, CA Sweetwater Authority, CA Western Municipal Water District, CA Cucamonga Valley Water District, CA City of Patterson, CA City of Chino Hills, CA Riverside Public Utilities, CA Vallecitos Water District, CA City of Fountain Valley, CA City of Westminster, CA City of Santa Ana, CA City of Lomita, CA Atascadero Mutual Water Company, CA Golden States Water Company California American Water City of Ontario, CA City of San Jose, CA County of San Bernardino, CA Goleta Water District Burbank Water & Power, CA Metropolitan Water District of Southern California Vallejo Flood Control District, CA Central Contra Costa Sanitation District, CA LA DWP, CA City of Santa Clara, CA City of Menlo Park, CA Olivehain Municipal Water District, CA Port of San Diego, CA Simi Valley Sanitation, CA City of Banning, CA City of Tacoma, WA Cherry Hills Sanitation District, CO Parker Water and Sanitation District, CO Waste Management Inc., CO Southeastern Colorado Water Conservancy District, CO Las Campanas Water & Sewer Cooperative, NM Suez Water, ID Bui, Appendix A 7 Veolia Water Idaho, Inc. PUBLICATIONS & PRESENTATIONS “The Conundrum of Water Affordability. What’s at Stake,” Lead story, Water Finance & Management, February 2021. “Customer-centricity for Utilities” Zyprme Webinar, October 29, 2020. “Can’t Pay; Won’t Pay: COVID Implications for Water Utility Funding” Water Online, September 16, 2020 “How Much is it Worth? An Overview of Valuing Water Utilities” Journal AWWA, August 2020. “Municipal Water and Privatization” Bank of America Merrill Lynch Water Investors Conference, December 2019 “Water Reuse Cost Allocations and Pricing” Journal AWWA, November 2019. “A Smoother Road to AMI: Leveraging applicable lessons from the Power Industry” Journal AWWA, September 2017. “What is a World-Class Utility and How Does Yours Become One?” Water Online, July 25, 2017 “Where are We Heading Next? Strategic Directions in the Water Industry”, presented at the Conference of Infrastructure Financing Agencies, Federal Policy Meeting in Washington, D.C., April 2017. “What’s in Your Wallet? Ways to Address Aging Infrastructure and Lack of Money.” Annual Utility Management Conference. June 2016 “No More Sacred Cows”, published in Journal AWWA, January 2016. “Business Risks to the Capital Financing Process”, published in AWWA’s Opflow magazine, September 2015. “Securing Solid Revenues Streams for Water Utilities is Crucial for Financial Resilience”, published in Breaking Energy, September 10, 2015. “Revenues and Expenses and Ratios, Oh My! A Finance Primer for Non-Finance Professionals”, presented at the Annual Utility Management Conference in Glendale, Ariz., March 2013. Bui, Ann T., Editor, Financial Management for Water Utilities: Principles of Finance, Accounting and Management Controls, 2012, published by AWWA, Denver, Colo. “Checks and Balances: An Overview of the New Financial Management for Water Utilities Handbook”, presented at the Annual AWWA Conference in Dallas, Tex., June 2012. “Introduction to Financial Planning” presented at the Pacific Northwest Section of the Clean Water Association Winter Short Course University, Portland, Oreg., February 2010. “Money Makes the World Go ‘Round: An Overview of the New Financial Management for Water Utilities Handbook,” presented at the Annual AWWA Conference in San Diego, Calif., June 2009. Bui, Appendix A 8 Veolia Water Idaho, Inc. “Key Performance Indicators” presented at the Annual AWWA Conference in San Diego, Calif., June 2009. “Everything You Ever Wanted to Know About Finance Management but were Afraid to Ask: An Overview of the New Financial Management for Water Utilities Manual”, presented at the Annual AWWA Conference in Atlanta, Ga., June 2008. “Alternative Funding Sources” presented at the Regional Water Authority Conference in Rancho Cordova, Calif., April 2007. “Financial Benchmarks” presented at the Annual AWWA Conference in San Francisco, Calif., June 2005. “Maximize Debt Market Options – Minimize Revenue Adjustments” presented at the Kentucky/Tennessee AWWA/WEF Conference in Nashville, Tenn., August 2004. “Quantification and Reduction of Risk from Hazardous Air Emissions - Keynote address,” presented at the AIChE Annual Conference in San Francisco, Calif., November 1994. VEOLIA WATER IDAHO INC. Customer Class Load Study BLACK & VEATCH PROJECT NO. 411087 PREPARED FOR Veolia Water Idaho Inc. SEPTEMBER 27, 2022 ©B l a c k & V e a t c h H o l d i n g C o m p a n y 2 0 1 2. A l l r i g h t s r e s e r v e d . Bui, Appendix B 1 Veolia Water Idaho, Inc. ~.BLACK&VEATCH Customer Class Load Study | VEOLIA WATER IDAHO INC. BLACK & VEATCH | Table of Contents i Table of Contents Legal Notice.............................................................................................................................................................. 3 Executive Summary .............................................................................................................................................. 4 1.0 Background ............................................................................................................................................... 7 1.1 VWID Customers ....................................................................................................................................... 7 1.2 Study Objectives & Approach ............................................................................................................... 7 2.0 Identification of Max Day and Max Hour Timeframe ................................................................. 9 2.1 System Max Day & Max Hour ............................................................................................................... 9 2.2 Determining an Analytical Window ............................................................................................... 10 3.0 Selection of Representative Customer Data ................................................................................ 12 3.1 Methodology to Select Representative Customers .................................................................. 12 3.2 Comparing Billing Data for All Customers and AMI Customers ......................................... 12 3.3 Selecting Representative AMI Meters............................................................................................ 13 3.3.1 Developing MD and MH Estimations .......................................................................... 14 3.3.2 Data Quality ........................................................................................................................... 15 4.0 Development of Peaking Factors ..................................................................................................... 16 4.1 VWID Production Versus System Demand .................................................................................. 16 4.2 Diurnal Demand Trends ...................................................................................................................... 17 4.2.1 Coincident Peaking Factors ............................................................................................ 19 4.2.2 Non-Coincident Peaking Factors .................................................................................. 19 4.2.3 System Diversity Factors ................................................................................................. 20 Appendix A ............................................................................................................................................................. 21 Appendix B ............................................................................................................................................................. 22 Appendix C ............................................................................................................................................................. 23 LIST OF TABLES Table 1-1 Count of Customers by Meter Reading Method and by Customer Class ...................................... 7 Table 3-1 Descriptive Statistics by Customer Class ................................................................................................ 13 Table 3-2 Descriptive Statistics by Customer Class after AMI Selection ....................................................... 14 Table 3-3 Count of Meters in Representative AMI Subset ................................................................................... 14 Table 4-1 Coincident Peaking Factors (Volumes in Cubic Feet) ....................................................................... 19 Table 4-2 Timing of Non-Coincident Peaks ................................................................................................................ 19 Table 4-3 Non-Coincident Peaking Factors (Volumes in Cubic Feet) ............................................................. 20 Table 4-4 System Diversity Factors (Volumes in Cubic Feet) ............................................................................ 20 Bui, Appendix B 2 Veolia Water Idaho, Inc. Customer Class Load Study | VEOLIA WATER IDAHO INC. BLACK & VEATCH | Table of Contents ii LIST OF FIGURES Figure 2-1 VWID Production Demand 2015-2021 ..................................................................................................... 9 Figure 2-2 VWID System Daily Production Jun-Aug 2021 .................................................................................. 10 Figure 2-3 Daily Usage by Customer Class (from Available AMI meters) Jun-Aug 2021 ....................... 11 Figure 4-1 VWID System Inputs and Demands (Hourly) for Peak Period .................................................... 18 Bui, Appendix B 3 Veolia Water Idaho, Inc. Customer Class Load Study | VEOLIA WATER IDAHO INC. BLACK & VEATCH | Legal Notice 3 Legal Notice This report was prepared for Veolia Water Idaho, Inc (Client) by Black & Veatch Management Consulting, LLC (Consultant) and is based on information provided by the Client, not within the control of Consultant. While the information, data, and opinions contained herein are believed to be reliable under the conditions and subject to the limitations set forth in this report, Consultant does not guarantee the accuracy thereof. Consultant has assumed that the information provided by others, both verbal and written, is complete and correct. Any projections set forth in this report are intended as "forward-looking statements." In formulating projections, Consultant has made certain assumptions with respect to conditions, events, and circumstances that may occur in the future. While Consultant believes the assumptions are reasonable, actual results may differ materially from those projected, as influenced by the conditions, events, and circumstances that occur. As such, Consultant does not take responsibility for the accuracy of data or projections provided by or prepared on behalf of the Client, nor does Consultant have any responsibility for updating this report for events occurring after the date of this report. Use of this report or any information contained therein by any party other than the Client shall constitute a waiver and release by such third party of Consultant from and against all claims and liability, including but not limited to liability for special, incidental, indirect, or consequential damages in connection with such use. Such use of this report by a third party shall constitute agreement by the third-party user that its rights, if any, arising from this report shall be subject to the terms of this Report Limitations, and in no event shall the third party's rights, if any, exceed those of the Client under its contract with B&V. The benefit of such releases, waivers, or limitations of liability shall extend to the related companies and subcontractors of any tier of Black & Veatch and the shareholders, directors, officers, partners, employees, and agents of all released or indemnified parties. Bui, Appendix B 4 Veolia Water Idaho, Inc. Customer Class Load Study | VEOLIA WATER IDAHO INC. BLACK & VEATCH | Executive Summary 4 Executive Summary Study Context Veolia Water Idaho, Inc., ("VWID" or "the Company") agreed to complete a load study to provide calculated maximum-day (MD) and maximum-hour (MH) factors for the total system as well as by appropriate customer class. This study leverages the Company’s investment in Advanced Metering Infrastructure (AMI) by utilizing AMI meters to provide data in hour increments to inform max-day and max-hour estimations in a way that will provide more granular data than reliance upon bi-monthly billing data. The study was guided by principles defined in the American Water Works Association’s (“AWWA”) Manual M1: Principles of Water Rates, Fees, and Charges (Seventh Edition) and included the following objectives: ▪ Establish a basis for selecting maximum day and maximum hour ratios for each appropriate customer classification and the total system. Private Fire Protection customers will not be included in the Load Study. ▪ The ratios will be used for allocating the maximum day and hour extra capacity costs in the next cost of service allocation study, which will be used as a guide for designing a proposed rate structure. ▪ The Company will consider input on load study components from interested parties, including customer class definitions, sampling methodologies, and data sources. Data Requirements & Analysis The study was data-intensive, utilizing records from system production data, water storage data, customer billing data, AMI data (for those customers with AMI meters), and Geographical Information System (GIS) data. Over half a billion data points were managed and available for analysis as part of the study. The data were used to identify: ▪ The appropriate MD and MH timeframe for the system and customer classifications. June 1st – August 31, 2021, was identified as an appropriate timeframe for the analysis based on a review of historical data. ▪ Representative AMI meters for each customer class. As not all VWID customers have AMI data, it was necessary to ensure that AMI meters selected for analysis were representative of the customer classifications. This was achieved by looking at average annual and seasonal water use metrics and identifying a total of 14,245 meters for inclusion in the analysis. Once an appropriate timeframe and representative AMI meters were identified, the analysis was performed to extrapolate MD and MH peaking factors for each customer class and the system. Development of Coincident Peaking Factors Based on production and storage data, the system MD occurred on 7/9/2021 with a system input value of 12,009,565 (cubic feet) CF cumulative volume for the day. The system max hour occurred on 7/19/21 at 5:00 AM, with a system input volume of 968,291 CF for the hour. The coincident demands (i.e., the demands occurring at the same time as the system peak) are shown in Table 4-1. Bui, Appendix B 5 Veolia Water Idaho, Inc. Customer Class Load Study | VEOLIA WATER IDAHO INC. BLACK & VEATCH | Executive Summary 5 Table ES1 Coincident Peaking Factors (Volumes in Cubic Feet) (1) (2) (3)=(2)/(1) (4) (5) (6)=(5)/(4) Customer Class Avg. Day Max. Day (MD) MD Peaking Factor Avg. Hour Max. Hour (MH) MH Peaking Factor Residential 3,783,854 7,775,536 2.05 157,661 757,375 4.80 Commercial 1,952,834 3,681,223 1.89 81,368 174,798 2.15 Public Auth. 10,892 12,073 1.11 454 2,066 4.55 SYSTEM 5,932,606 12,009,565 2.02 247,192 968,291 3.92 Development of Non-Coincident Peaking Factors Non-Coincident Peaks are measured for each customer class independently of the overall system peak. The MD occurs on a different day for each class, and the MH also occurs on a different hour (and different day) for each class. Each customer class has a unique peaking profile, with class peaks occurring at different times (see Appendix C). The non-coincident demands are shown in Table ES2. Table ES2 Non-Coincident Peaking Factors (Volumes in Cubic Feet) (1) (2) (3)=(2)/(1) (4) (5) (6)=(5)/(4) Customer Class Avg. Day Max. Day (MD) MD Peaking Factor Avg. Hour Max. Hour (MH) MH Peaking Factor Residential 3,783,854 8,071,659 2.13 157,661 773,287 4.90 Commercial 1,952,834 3,681,223 1.89 81,368 229,733 2.82 Public Auth. 10,892 15,716 1.44 454 2,134 4.70 Development of System Diversity Factors The relationship of the noncoincident to coincident demands is referred to as the measure of the system diversity of demand (AWWA Manual M1). Table ES3 shows the system diversity factors for the VWID system. The values shown represent the combined demands of only the Commercial, Public Authority, and Residential Class Customers. The system diversity ratio is often in the range of 1.1 to 1.4, though different system diversity measures may arise. For example, a system that consists almost entirely of residential customers would have a diversity factor very close to 1.0, because the noncoincident demand of the residential customer class would be approximately equal to the coincident demand of the system. Bui, Appendix B 6 Veolia Water Idaho, Inc. Customer Class Load Study | VEOLIA WATER IDAHO INC. BLACK & VEATCH | Executive Summary 6 Table ES3 System Diversity Factors (Volumes in Cubic Feet) (1) (2) (3)=(2)/(1) (4) (5) (6)=(5)/(4) Type Avg. Day Max. Day (MD) MD Peaking Factor Avg. Hour Max. Hour (MH) MH Peaking Factor Coincident 5,747,581 11,468,832 2.00 239,483 934,239 3.90 Noncoincident 5,747,581 11,768,598 2.05 239,483 1,005,154 4.20 System Diversity Factor (Noncoincident / Coincident) 1.03 1.08 Bui, Appendix B 7 Veolia Water Idaho, Inc. Customer Class Load Study | VEOLIA WATER IDAHO INC. BLACK & VEATCH | Background 7 1.0 Background Veolia Water Idaho Inc. ("VWID" or "The Company") agreed to complete a load study to provide calculated max-day and max-hour factors for the total system as well as by appropriate customer class. As defined in Board Order No. 35030, the Company will work with interested parties to take input on load study components, including customer class definitions, sampling methodologies from those classes, and data sources (e.g., Advanced Metering Infrastructure ["AMI"], Supervisory Control and Data Acquisition ["SCADA"], meters). After taking input from interested parties, the Company will determine how the load study shall be performed. 1.1 VWID CUSTOMERS VWID's data and billing systems currently define customers as Residential, Commercial, Public Authority, or Private Fire Protection. The current tariff includes an Industrial classification; however, no active customers are in this class. VWID charges customers based on meter size and usage obtained via a mix of meter reading methods, including AMI and non-AMI (i.e., manual or Automated Meter Reading [AMR]). Table 1-1 summarizes the split between AMI and non-AMI customers. Table 1-1 Count of Customers by Meter Reading Method and by Customer Class Customer Class AMI Customers Non-AMI Customers Total Commercial 2,552 7,491 10,043 Public Authority 23 45 68 Residential 18,461 73,178 91,639 TOTAL 21,036 80,714 101,750 1.2 STUDY OBJECTIVES & APPROACH Black & Veatch understands that the key study objectives include the following: ▪ Establish a basis for selecting maximum day and maximum hour ratios for each appropriate customer classification and the total system. Private Fire Protection customers will not be included in the Load Study. ▪ The ratios will be used for allocating the maximum day and hour extra capacity costs in the next cost of service allocation study, which will be used as a guide for designing a proposed rate structure. ▪ The Company will consider input on load study components from interested parties, including customer class definitions, sampling methodologies, and data sources. ▪ The selected consultant's scope of services includes preparing exhibits and testimony for presentation to the Commission in the first general rate case filing after the study's conclusion. This study was guided by principles defined in the American Water Works Association’s (“AWWA”) Manual M1: Principles of Water Rates, Fees, and Charges (Seventh Edition), hereinafter referred to as AWWA Manual M1. AWWA Manual M1 states that “…the determination of appropriate peaking factors by customer class for use in cost-of-service allocations and/or rate design is a significant challenge in rate- making. One means for determining peaking factors by customer class is to undertake a formal demand Bui, Appendix B 8 Veolia Water Idaho, Inc. Customer Class Load Study | VEOLIA WATER IDAHO INC. BLACK & VEATCH | Background 8 study. Formal demand studies involve daily and hourly consumption records of samples of customers from each class of service and are analyzed over a period of weeks or months. With the increasing availability of automated meter-reading equipment, enhanced billing software, and data processing capabilities, these formal design studies, although still costly, are not as difficult or costly as they were in the past. However, they are not without costs, and there are less sophisticated though adequate calculations that may be employed to estimate customer class peaking factors using readily available data in the utility’s records”. The VWID Load Study fits the category of formal demand study per AWWA Manual M1 as it leveraged hourly and daily consumption measurements of VWID customers made possible by the investments in AMI. Such studies are relatively uncommon within the water utility sector as AMI is not yet prevalent. Still, they can provide much greater granularity and insights into customer consumption patterns than the use of bi- monthly billing records. The study was data-intensive, utilizing records from system production data, water storage data, customer billing data, AMI data (for those customers with AMI meters), and Geographical Information System (GIS) data. Over half a billion data points were managed and available for analysis as part of the study. Bui, Appendix B 9 Veolia Water Idaho, Inc. Customer Class Load Study | VEOLIA WATER IDAHO INC. BLACK & VEATCH | Identification of Max Day and Max Hour Timeframe 9 2.0 Identification of Max Day and Max Hour Timeframe 2.1 SYSTEM MAX DAY & MAX HOUR One of the initial study tasks was to identify the appropriate maximum-day (MD) and maximum-hour MH periods for the system and customer classifications. AWWA Manual M1 Appendix A1 suggests using system- wide data to identify the highest system MD to system average-day (AD) demand over a representative number of recent years. Figure 2-1 VWID Production Demand 2015-2021 Figure 2-1 shows daily production data for the VWID system and indicates that the highest max day production value occurred in 2021. Hourly production data from 2019-2021 was also analyzed, confirming that the 19 highest hourly production volumes during this timeframe occurred in July of 2021. Therefore, 2021 was selected as the focal timeframe for reviewing customer AMI data in detail to establish peaking factors by customer class. In addition, other factors supporting the selection of 2021 included: ▪ Weather data confirmed 2021 as the hottest summer in the last few years (see Appendix A). ▪ 2021 is less impacted by COVID-19 than 2020. ▪ 2021 is the most recent year available for analysis at the time of the study. ▪ More AMI data is available for analysis in 2021 compared to earlier years due to the ongoing expansion of AMI coverage throughout the VWID system. 1 Appendix A: Development of Peaking Factors by Customer Class Bui, Appendix B 10 Veolia Water Idaho, Inc. SOM 100K 60M SOK >-.. > D .. D .,, C: LL 2 u -;; 60K !:! ~ C: C: ~ -~ 40M ::, -0 -0 0 0 cl: cl: 40K 20M 20K OM OK 2015 2016 2017 2018 2019 2020 2021 Date Customer Class Load Study | VEOLIA WATER IDAHO INC. BLACK & VEATCH | Identification of Max Day and Max Hour Timeframe 10 2.2 DETERMINING AN ANALYTICAL WINDOW As AMI data is being used to determine customer class-based MD and MH values, it is necessary to identify a plausible window that will contain the MD and MH periods and then process the raw AMI data to prepare it for analysis within that analytical window. It would not be feasible and would expend unnecessary effort to analyze all the raw AMI data for every period due to the validation that needs to be applied to the data. For example, meter changeouts, rollovers, and other data anomalies that typically occur in raw data and would adversely impact the analysis need to be screened out. Based on a review of Figure 2-1 and its supporting data, it was determined that the period of 06/01/2021 – 08/31/2021 would define the analytical window and would contain the MD and MH values for the system and customer classes (Figure 2-2 shows a more detailed view of this period with the system peaking the most in early July 2021). Figure 2-3 supports the selection of this period and confirms that both the system and customer classes peak during this period. Therefore, AMI data was prepared for this timeframe. The system data reflects all the water put into the distribution system (from both production sources and storage) to satisfy system demands. The customer class data shown in Figure 2-3 reflect the summed volume of the AMI customers only, disaggregated by customer class. As not all customers have AMI meters, the sum of the customer class totals in Figure 2-3 will not approximate the system total; however, the profile of the trends lines are similar and indicates that this period contains the peaking periods for the system and also the individual customer classes based on the available AMI data from over 20,000 AMI customers. Figure 2-2 VWID System Daily Production Jun-Aug 2021 40 50 60 70 80 90 100 Mi l l i o n G a l l o n s / D a y VWID System Production Bui, Appendix B 11 Veolia Water Idaho, Inc. f Customer Class Load Study | VEOLIA WATER IDAHO INC. BLACK & VEATCH | Identification of Max Day and Max Hour Timeframe 11 Figure 2-3 Daily Usage by Customer Class (from Available AMI meters) Jun-Aug 2021 - 1,000 2,000 3,000 4,000 5,000 6,000 7,000 8,000 9,000 10,000 - 200,000 400,000 600,000 800,000 1,000,000 1,200,000 1,400,000 1,600,000 1,800,000 Cu b i c F e e t ( P u b l i c A u t h o r i t y ) Cu b i c F e e t ( R e s i d e n t i a l a n d C o m m e r c i a l ) ResidentialCommercialPublic Authority Bui, Appendix B 12 Veolia Water Idaho, Inc. ~ ~ ~ ~ ~ ~ ~ ~ v f f f ~ ~ ~ ~ ~ ~ ~ ~ # ~ ~ ~ p ~ ~ ~ ◊ ◊ ◊ ◊ ◊ ◊ ◊ ◊ ◊ ◊ ◊ ◊ ◊ ◊ I I + l t ~ t t t + t t + + ~ t I t ~ l t t ~ Customer Class Load Study | VEOLIA WATER IDAHO INC. BLACK & VEATCH | Selection of Representative Customer Data 12 3.0 Selection of Representative Customer Data As discussed in section 2.2, not all VWID customers have AMI meters. Therefore, it is necessary to ensure that the AMI data selected for analysis is representative of the customer class as a whole because the AMI data is used to extrapolate peaking profiles and factors for the customer class as a whole. 3.1 METHODOLOGY TO SELECT REPRESENTATIVE CUSTOMERS The bi-monthly billing data for the VWID system was reviewed and analyzed to determine if the available usage data from AMI meters is representative of the customers as a whole. For each customer class (Residential, Commercial, Public Authority), the approach used can be summarized as follows: ▪ Calculate the average monthly usage per bill and the average seasonal usage per bill for all customers within the customer class. ▪ Calculate the average monthly usage per bill and the average seasonal usage per bill for customers with available AMI data within the customer class. ▪ Compare results for all customers against AMI-only customers. ▪ If necessary, revise the selection of AMI customers to match the average and seasonal usage profile of all customers. The following sections provide more details and results on the above steps. 3.2 COMPARING BILLING DATA FOR ALL CUSTOMERS AND AMI CUSTOMERS Billing data for the 2021 calendar year was reviewed to determine the average monthly usage and the average seasonal usage for each customer class to examine if AMI-only customers were representative of All Customers for the respective customer classes. As the VWID system uses bi-monthly billing, not all customers are read at the same time (i.e., every month), so usage characteristics were developed as follows: ▪ Average monthly usage was calculated as the sum of all billing volume in the year, divided by 12. ▪ Peak Usage was derived from bills with Transaction Months of June through October. ▪ Off-Peak Usage was derived from bills with Transaction Months of January through May and November through December. ▪ The Seasonal Peaking Factor was the ratio of peak usage to off-peak usage. Multiple datasets were linked using common identifiers to determine which accounts were billed on AMI and non-AMI meters. The above metrics were developed, and Table 3-1 shows the results by customer class. Bui, Appendix B 13 Veolia Water Idaho, Inc. Customer Class Load Study | VEOLIA WATER IDAHO INC. BLACK & VEATCH | Selection of Representative Customer Data 13 Table 3-1 Descriptive Statistics by Customer Class CUSTOMER CLASS AVERAGE MONTHLY USAGE CCF SEASONAL PEAKING FACTOR All Customers AMI-only % Difference All Customers AMI-only % Difference Commercial 59.1 67.3 +13.8% 1.95 2.22 +13.5% Public Authority 48.7 51.8 +6.4% 4.57 4.14 -9.4% Residential 12.6 13.2 +4.9% 2.63 3.04 +15.4% It can be observed that, for each class, the AMI-only customers used more water on average than the All- Customers group. Seasonal peaking factors were also higher for the AMI-only commercial and residential customers compared to all customers. For example, for the Commercial class, the AMI-only average monthly usage for 2021 was 59.1 hundred cubic feet (CCF); for AMI-only customers, it was 67.3 CCF, or 13.8% higher. The seasonal peaking factor was higher for AMI-only customers by 13.5%. This is not a surprising finding as utilities often deploy AMI meters to high-usage customers who benefit the most from the near real-time insights that AMI data can provide. 3.3 SELECTING REPRESENTATIVE AMI METERS Given the results shown in Table 3-1, it is necessary to select a subset of AMI-only customers that more closely reflect the characteristics of the respective customer class as a whole. Therefore, for each customer class, the direction of skew in the data was determined. Records were then randomly removed for customers skewing the data until the AMI-only subset of customers matched the respective customer class as a whole. For example, AMI meters with higher-than-average usage and higher than average seasonal peaking factors (compared to the respective customer class average) were identified and then a portion were randomly removed. This was an iterative process using a randomized and automated analysis applying thousands of iterations to derive a subset of AMI meters with usage characteristics more representative of all customers for each customer class. The automated randomized iterations would end once the metrics for the AMI-only customers matched the metrics for the respective customer class as a whole. The goal was to match within ±0.25%, which was achieved for commercial and residential customers, but was not achieved for public authority due to the relatively small number of meters for this class. The public authority class metrics were matched within ±0.50%. The usage characteristics for the selected AMI customers (subset) are shown in Table 3 2. The table shows that the usage characteristic for the selected AMI customers matches the All Customers for each customer class. Bui, Appendix B 14 Veolia Water Idaho, Inc. Customer Class Load Study | VEOLIA WATER IDAHO INC. BLACK & VEATCH | Selection of Representative Customer Data 14 Table 3-2 Descriptive Statistics by Customer Class after AMI Selection CUSTOMER CLASS AVERAGE MONTHLY USAGE CCF SEASONAL PEAKING FACTOR All Customers Selected AMI % Difference All Customers Selected AMI % Difference Commercial 59.1 59.1 0.0% 1.95 1.95 -0.1% Public Authority 48.7 48.5 -0.4% 4.57 4.56 -0.4% Residential 12.6 12.5 -0.2% 2.63 2.63 0.0% A total of 14,245 meters are included in the AMI subset and represent meters of all sizes for each customer class. A summary of the meters is included in Table 3-3. The selected meters represent between 13% and 19% of total meters for each customer class and utilize approximately 69% of the total AMI meters available within the VWID system. Table 3-3 Count of Meters in Representative AMI Subset METER SIZE COMMERCIAL PUBLIC AUTHORITY RESIDENTIAL 5/8” 73 1 3,445 3/4” 244 2 5,719 1” 393 5 3,643 1.5” 221 2 72 2” 362 3 40 3” 15 - - 4” 2 - - 6” 2 - - 8” 1 - - TOTAL 1,313 (13%) 13 (19%) 12,919 (14%) 3.3.1 Developing MD and MH Estimations The subset of AMI meters was then used to develop estimations of MD and MH for the VWID system. An average hourly usage profile was developed for each customer class for the timeframe identified in section 2.2. This average usage profile was multiplied by the number of service points to estimate the total water usage hourly and daily for each customer class. Bui, Appendix B 15 Veolia Water Idaho, Inc. Customer Class Load Study | VEOLIA WATER IDAHO INC. BLACK & VEATCH | Selection of Representative Customer Data 15 3.3.2 Data Quality Water usage data is derived from meter reading devices that, like other technology, have the potential to generate erroneous data. With AMI technology, any “bad reads” can be more easily resolved as a new read and captured without sending a meter reader to the meter location. However, it is possible that bad reads are still generated, such as when equipment fails or when a meter register rolls over. Black & Veatch worked with raw, incremental meter readings; therefore, the data for each meter was screened in several ways to ensure good data quality. Depending on the situation, either a correction to the meter reading was made (e.g., interpolation between two good reads if minimal data was missing or suspect), or the meter was excluded from the analysis. The tests are described as follows: ▪ Negative Consumption: Any meter that registered an hourly interval with significant negative consumption was excluded. One meter was excluded based on this test. ▪ Completeness of record: Any meter that had significant missing data was excluded from the analysis. 0.5% of meters were excluded as they had less than 50% of the hourly interval readings available during the analytical window. Meter readings can be interpolated if some interval data are missing. ▪ Meter size was considered in evaluating if a meter reading (and corresponding calculated usage) was plausible. I.e., small meters have lower potential flow rates than larger meters. No meters were excluded based on this test. ▪ Where necessary, cross-checks were performed to compare the usage calculated directly by Black & Veatch based on the raw meter read data against the usage billed to the customer. No anomalies were found in the volume of usage. Bui, Appendix B 16 Veolia Water Idaho, Inc. Customer Class Load Study | VEOLIA WATER IDAHO INC. BLACK & VEATCH | Development of Peaking Factors 16 4.0 Development of Peaking Factors Following the identification of a suitable timeframe that captures system and customer peaks, and the identification of a sample of AMI meters that are representative of the respective customer class usage, the peaking factors were developed for the VWID system. 4.1 VWID PRODUCTION VERSUS SYSTEM DEMAND Figure 3-1 shows a graphical representation of the hourly VWID system input volumes and system demand for the MD and MH periods for 2021. The source data used for this study were stored in multiple data systems and formats. It was necessary to ensure that each data set was correctly converted to Mountain Time for analysis purposes. Each data series is explained below: ▪ System Input is the volume entering the distribution system. It is the sum of production volumes from wells and treatment plants plus net storage releases into the distribution system. The VWID system manages 32 storage reservoirs to help smooth production and meet fire protection requirements. Storage typically fills in the afternoon and empties in the early morning hours to help meet periods of high demand. ▪ Commercial is the estimated volume of usage (or demand) from customers in the Commercial class, based on the subset of representative Commercial meters extrapolated to the full number of Commercial customers in the VWID system. ▪ Public Authority is the estimated volume of usage (or demand) from customers in the Public Authority class, based on the subset of representative Public Authority meters extrapolated to the full number of Public Authority customers in the VWID system. Due to this classification's very small relative size, it is hard to visualize in Figure 3 1, but it appears between the Commercial and Residential bars. ▪ Residential is the estimated volume of usage (or demand) from customers in the Residential class, based on the subset of representative Residential meters extrapolated to the full number of Residential customers in the VWID system. ▪ Non-Revenue Water is another form of ‘demand’ on the system. It is comprised of the three components of i) real losses (physical leakage), ii) apparent losses (metering inaccuracies, unauthorized consumption, etc.), and iii) unbilled authorized uses (e.g., Fire Department usage and flushing). This value was estimated from reports provided by the Company and is held constant as these volumes are typically unmetered. The demand components (commercial, public authority, residential, and non-revenue water) are represented as stacked bar series in Figure 3 1. It is important to note that a perfect alignment between system input and demand is not to be expected. Hourly data is unavailable for all customers in the VWID system, and so the customer demand components are developed from an extrapolation of representative subsets of customers, as explained in section 3.0. The close alignment between the aggregate demand (top of the blue bars) and the total system input (black line) through repeated diurnal cycles indicates that the methodology and approach to define a subset of representative AMI customers and extrapolate to the total system demand is likely reliable and that sound conclusions can be drawn from interpreting the data. Bui, Appendix B 17 Veolia Water Idaho, Inc. Customer Class Load Study | VEOLIA WATER IDAHO INC. BLACK & VEATCH | Development of Peaking Factors 17 If significant deviations between the system input and aggregate demand lines were observed, it would indicate that the sampling or extrapolation method was unreliable. As more AMI meters are deployed over time, the alignment between system input and system demand will likely become closer still, and any future studies leveraging AMI data for insights on MD and MH demands (and for other operational insights) will become even more reliable as they will rely on less extrapolation. 4.2 DIURNAL DEMAND TRENDS Figure 4-1 shows a repetitive diurnal pattern. Demand typically accelerates after midnight through to the early morning hours with the highest peak of the day around 5-6am which is likely associated with irrigation systems operating around this time. Demand then falls to a low in the mid-afternoon around 2-3 pm, with system storage being replenished at this low demand time. Demand then rises with a secondary peak around 9-10 pm, with demand then falling slightly towards midnight. Appendix B is provided to show this diurnal pattern in more detail. Bui, Appendix B 18 Veolia Water Idaho, Inc. Customer Class Load Study | VEOLIA WATER IDAHO INC. BLACK & VEATCH | Development of Peaking Factors 18 Figure 4-1 VWID System Inputs and Demands (Hourly) for Peak Period - 100,000 200,000 300,000 400,000 500,000 600,000 700,000 800,000 900,000 1,000,000 0 100,000 200,000 300,000 400,000 500,000 600,000 700,000 800,000 900,000 1,000,000 7/ 7 / 2 1 1 2 : 0 0 A M 7/ 7 / 2 1 6 : 0 0 A M 7/ 7 / 2 1 1 2 : 0 0 P M 7/ 7 / 2 1 6 : 0 0 P M 7/ 8 / 2 1 1 2 : 0 0 A M 7/ 8 / 2 1 6 : 0 0 A M 7/ 8 / 2 1 1 2 : 0 0 P M 7/ 8 / 2 1 6 : 0 0 P M 7/ 9 / 2 1 1 2 : 0 0 A M 7/ 9 / 2 1 6 : 0 0 A M 7/ 9 / 2 1 1 2 : 0 0 P M 7/ 9 / 2 1 6 : 0 0 P M 7/ 1 0 / 2 1 1 2 : 0 0 A M 7/ 1 0 / 2 1 6 : 0 0 A M 7/ 1 0 / 2 1 1 2 : 0 0 P M 7/ 1 0 / 2 1 6 : 0 0 P M 7/ 1 1 / 2 1 1 2 : 0 0 A M 7/ 1 1 / 2 1 6 : 0 0 A M 7/ 1 1 / 2 1 1 2 : 0 0 P M 7/ 1 1 / 2 1 6 : 0 0 P M 7/ 1 2 / 2 1 1 2 : 0 0 A M 7/ 1 2 / 2 1 6 : 0 0 A M 7/ 1 2 / 2 1 1 2 : 0 0 P M 7/ 1 2 / 2 1 6 : 0 0 P M 7/ 1 3 / 2 1 1 2 : 0 0 A M 7/ 1 3 / 2 1 6 : 0 0 A M 7/ 1 3 / 2 1 1 2 : 0 0 P M 7/ 1 3 / 2 1 6 : 0 0 P M 7/ 1 4 / 2 1 1 2 : 0 0 A M 7/ 1 4 / 2 1 6 : 0 0 A M 7/ 1 4 / 2 1 1 2 : 0 0 P M 7/ 1 4 / 2 1 6 : 0 0 P M 7/ 1 5 / 2 1 1 2 : 0 0 A M 7/ 1 5 / 2 1 6 : 0 0 A M 7/ 1 5 / 2 1 1 2 : 0 0 P M 7/ 1 5 / 2 1 6 : 0 0 P M 7/ 1 6 / 2 1 1 2 : 0 0 A M 7/ 1 6 / 2 1 6 : 0 0 A M 7/ 1 6 / 2 1 1 2 : 0 0 P M 7/ 1 6 / 2 1 6 : 0 0 P M 7/ 1 7 / 2 1 1 2 : 0 0 A M 7/ 1 7 / 2 1 6 : 0 0 A M 7/ 1 7 / 2 1 1 2 : 0 0 P M 7/ 1 7 / 2 1 6 : 0 0 P M 7/ 1 8 / 2 1 1 2 : 0 0 A M 7/ 1 8 / 2 1 6 : 0 0 A M 7/ 1 8 / 2 1 1 2 : 0 0 P M 7/ 1 8 / 2 1 6 : 0 0 P M 7/ 1 9 / 2 1 1 2 : 0 0 A M 7/ 1 9 / 2 1 6 : 0 0 A M 7/ 1 9 / 2 1 1 2 : 0 0 P M 7/ 1 9 / 2 1 6 : 0 0 P M CF / H r . CF / H r . Non-Revenue Water Commercial Public Authority Residential System Input Bui, Appendix B 19 Veolia Water Idaho, Inc. ----- I Customer Class Load Study | VEOLIA WATER IDAHO INC. BLACK & VEATCH | Development of Peaking Factors 19 4.2.1 Coincident Peaking Factors Based on production and storage data, the system MD occurred on 7/9/2021 with a system input value of 12,009,565 CF cumulative volume for the day. The system max hour occurred on 7/19/21 at 5:00 AM, with a system input volume of 968,291 CF for the hour. The coincident demands (i.e., the demands occurring at the same time as the system peak) are shown in Table 4-1. Table 4-1 Coincident Peaking Factors (Volumes in Cubic Feet) (1) (2) (3)=(2)/(1) (4) (5) (6)=(5)/(4) Customer Class Avg. Day Max. Day (MD) MD Peaking Factor Avg. Hour Max. Hour (MH) MH Peaking Factor Residential 3,783,854 7,775,536 2.05 157,661 757,375 4.80 Commercial 1,952,834 3,681,223 1.89 81,368 174,798 2.15 Public Auth. 10,892 12,073 1.11 454 2,066 4.55 SYSTEM 5,932,606 12,009,565 2.02 247,192 968,291 3.92 4.2.2 Non-Coincident Peaking Factors Non-Coincident Peaks are measured for each customer class independently of the overall system peak. Table 4-2 shows the timing of MD and MH peaks for each of the three customer classes. The MD occurs on a different day for each class, and the MH also occurs on a different hour (and different day) for each class. It can be observed that each customer class has a unique peaking profile, with class peaks occurring at different times (see Appendix C). Table 4-2 Timing of Non-Coincident Peaks Customer Class Max. Day (MD) MD Date Max. Hour (MH) MH Date/Time Residential 8,071,659 7/12/2021 773,287 7/12/21 6:00 AM Commercial 3,681,223 7/9/2021 229,733 7/11/21 12:00 AM Public Auth. 15,716 7/14/2021 2,134 7/17/21 5:00 AM The non-coincident demands are shown in Table 4-3. Bui, Appendix B 20 Veolia Water Idaho, Inc. Customer Class Load Study | VEOLIA WATER IDAHO INC. BLACK & VEATCH | Development of Peaking Factors 20 Table 4-3 Non-Coincident Peaking Factors (Volumes in Cubic Feet) (1) (2) (3)=(2)/(1) (4) (5) (6)=(5)/(4) Customer Class Avg. Day Max. Day (MD) MD Peaking Factor Avg. Hour Max. Hour (MH) MH Peaking Factor Residential 3,783,854 8,071,659 2.13 157,661 773,287 4.90 Commercial 1,952,834 3,681,223 1.89 81,368 229,733 2.82 Public Auth. 10,892 15,716 1.44 454 2,134 4.70 4.2.3 System Diversity Factors The relationship of the noncoincident to coincident demands is referred to as the measure of the system diversity of demand (AWWA Manual M1). Table 4-4 shows the system diversity factors for the VWID system. The values shown represent the combined demands of only the Commercial, Public Authority, and Residential Class Customers. The system diversity ratio is often in the range of 1.1 to 1.4, though different system diversity measures may arise. For example, a system that consists almost entirely of residential customers would have a diversity factor very close to 1.0, because the noncoincident demand of the residential customer class would be approximately equal to the coincident demand of the system. Table 4-4 System Diversity Factors (Volumes in Cubic Feet) (1) (2) (3)=(2)/(1) (4) (5) (6)=(5)/(4) Type Avg. Day Max. Day (MD) MD Peaking Factor Avg. Hour Max. Hour (MH) MH Peaking Factor Coincident 5,747,581 11,468,832 2.00 239,483 934,239 3.90 Noncoincident 5,747,581 11,768,598 2.05 239,483 1,005,154 4.20 System Diversity Factor (Noncoincident / Coincident) 1.03 1.08 Bui, Appendix B 21 Veolia Water Idaho, Inc. Customer Class Load Study | VEOLIA WATER IDAHO INC. BLACK & VEATCH | Appendix A 21 Appendix A A review also informed the selection of an appropriate year for weather data analysis between 2015 and 2021. July 2021 saw the highest average monthly high temperature over the past seven years. Although the total rainfall for July 2021 was unusually high, over 90% of the entire volume recorded for July occurred in one day (July 31st, 2021), meaning it was generally also a typically dry month. Aug:91.6 Aug:90.6 Jul: 97.3 Jul: 96.2 Aug: 91.9 Aug: 92.0 Jul: 98.6 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.00 20 40 60 80 100 120 140 160 180 200 1/ 1 / 2 0 1 5 3/ 1 / 2 0 1 5 5/ 1 / 2 0 1 5 7/ 1 / 2 0 1 5 9/ 1 / 2 0 1 5 11 / 1 / 2 0 1 5 1/ 1 / 2 0 1 6 3/ 1 / 2 0 1 6 5/ 1 / 2 0 1 6 7/ 1 / 2 0 1 6 9/ 1 / 2 0 1 6 11 / 1 / 2 0 1 6 1/ 1 / 2 0 1 7 3/ 1 / 2 0 1 7 5/ 1 / 2 0 1 7 7/ 1 / 2 0 1 7 9/ 1 / 2 0 1 7 11 / 1 / 2 0 1 7 1/ 1 / 2 0 1 8 3/ 1 / 2 0 1 8 5/ 1 / 2 0 1 8 7/ 1 / 2 0 1 8 9/ 1 / 2 0 1 8 11 / 1 / 2 0 1 8 1/ 1 / 2 0 1 9 3/ 1 / 2 0 1 9 5/ 1 / 2 0 1 9 7/ 1 / 2 0 1 9 9/ 1 / 2 0 1 9 11 / 1 / 2 0 1 9 1/ 1 / 2 0 2 0 3/ 1 / 2 0 2 0 5/ 1 / 2 0 2 0 7/ 1 / 2 0 2 0 9/ 1 / 2 0 2 0 11 / 1 / 2 0 2 0 1/ 1 / 2 0 2 1 3/ 1 / 2 0 2 1 5/ 1 / 2 0 2 1 7/ 1 / 2 0 2 1 9/ 1 / 2 0 2 1 11 / 1 / 2 0 2 1 In c h e s R a i n f a l l Te m p , d e g r e e s F Location: Boise Air Terminal, Idaho Total Precip.Avg. Monthly High Bui, Appendix B 22 Veolia Water Idaho, Inc. T TT TT TT TT Customer Class Load Study | VEOLIA WATER IDAHO INC. BLACK & VEATCH | Appendix B 22 Appendix B Three-day diurnal Trend demonstrating daily water use patterns by customer class - 100,000 200,000 300,000 400,000 500,000 600,000 700,000 800,000 900,000 1,000,000 0 100,000 200,000 300,000 400,000 500,000 600,000 700,000 800,000 900,000 1,000,000 CF / H r . CF / H r . Non-Revenue Water Commercial Public Authority Residential System Input Bui, Appendix B 23 Veolia Water Idaho, Inc. ----- Customer Class Load Study | VEOLIA WATER IDAHO INC. BLACK & VEATCH | Appendix C 23 Appendix C Individual Customer Class Demands (due to scale differences, Public Authority on the right-hand axis) - 1,000 2,000 3,000 4,000 5,000 6,000 7,000 8,000 9,000 10,000 0 100,000 200,000 300,000 400,000 500,000 600,000 700,000 800,000 7/ 7 / 2 1 1 2 : 0 0 A M 7/ 7 / 2 1 6 : 0 0 A M 7/ 7 / 2 1 1 2 : 0 0 P M 7/ 7 / 2 1 6 : 0 0 P M 7/ 8 / 2 1 1 2 : 0 0 A M 7/ 8 / 2 1 6 : 0 0 A M 7/ 8 / 2 1 1 2 : 0 0 P M 7/ 8 / 2 1 6 : 0 0 P M 7/ 9 / 2 1 1 2 : 0 0 A M 7/ 9 / 2 1 6 : 0 0 A M 7/ 9 / 2 1 1 2 : 0 0 P M 7/ 9 / 2 1 6 : 0 0 P M 7/ 1 0 / 2 1 1 2 : 0 0 A M 7/ 1 0 / 2 1 6 : 0 0 A M 7/ 1 0 / 2 1 1 2 : 0 0 P M 7/ 1 0 / 2 1 6 : 0 0 P M 7/ 1 1 / 2 1 1 2 : 0 0 A M 7/ 1 1 / 2 1 6 : 0 0 A M 7/ 1 1 / 2 1 1 2 : 0 0 P M 7/ 1 1 / 2 1 6 : 0 0 P M 7/ 1 2 / 2 1 1 2 : 0 0 A M 7/ 1 2 / 2 1 6 : 0 0 A M 7/ 1 2 / 2 1 1 2 : 0 0 P M 7/ 1 2 / 2 1 6 : 0 0 P M 7/ 1 3 / 2 1 1 2 : 0 0 A M 7/ 1 3 / 2 1 6 : 0 0 A M 7/ 1 3 / 2 1 1 2 : 0 0 P M 7/ 1 3 / 2 1 6 : 0 0 P M 7/ 1 4 / 2 1 1 2 : 0 0 A M 7/ 1 4 / 2 1 6 : 0 0 A M 7/ 1 4 / 2 1 1 2 : 0 0 P M 7/ 1 4 / 2 1 6 : 0 0 P M 7/ 1 5 / 2 1 1 2 : 0 0 A M 7/ 1 5 / 2 1 6 : 0 0 A M 7/ 1 5 / 2 1 1 2 : 0 0 P M 7/ 1 5 / 2 1 6 : 0 0 P M 7/ 1 6 / 2 1 1 2 : 0 0 A M 7/ 1 6 / 2 1 6 : 0 0 A M 7/ 1 6 / 2 1 1 2 : 0 0 P M 7/ 1 6 / 2 1 6 : 0 0 P M 7/ 1 7 / 2 1 1 2 : 0 0 A M 7/ 1 7 / 2 1 6 : 0 0 A M 7/ 1 7 / 2 1 1 2 : 0 0 P M 7/ 1 7 / 2 1 6 : 0 0 P M 7/ 1 8 / 2 1 1 2 : 0 0 A M 7/ 1 8 / 2 1 6 : 0 0 A M 7/ 1 8 / 2 1 1 2 : 0 0 P M 7/ 1 8 / 2 1 6 : 0 0 P M 7/ 1 9 / 2 1 1 2 : 0 0 A M 7/ 1 9 / 2 1 6 : 0 0 A M 7/ 1 9 / 2 1 1 2 : 0 0 P M 7/ 1 9 / 2 1 6 : 0 0 P M CF / H r . ( P u b l i c A u t h o r i t y ) CF / H r . ( C o m m e r c i a l a n d R e s i d e n t i a l ) Commercial Residential Public Authority Bui, Appendix B 24 Veolia Water Idaho, Inc. + + + . + + + Preston N. Carter (ISB No. 8462) Morgan D. Goodin (ISB No. 11184) Givens Pursley LLP 601 W. Bannock St. Boise, ID 83702 Telephone: (208) 388-1200 Facsimile: (208) 388-1300 prestoncarter@givenspursley.com morgangoodin@givenspursley.com Attorneys for Veolia Water Idaho, Inc. BEFORE THE IDAHO PUBLIC UTILITIES COMMISSION IN THE MATTER OF THE APPLICATION OF VEOLIA WATER IDAHO, INC. FOR AUTHORITY TO INCREASE ITS RATES AND CHARGES FOR WATER SERVICE IN THE STATE OF IDAHO ) ) ) ) ) ) ) ) Case No. VEO-W-22-02 BEFORE THE IDAHO PUBLIC UTILITIES COMMISSION EXHIBIT 14 TO ACCOMPANY THE DIRECT TESTIMONY OF ANN BUI Case No. VEO-W-22-02 A. Bui Page 1 of 40 Customer Classification (1) Residential Commercia l Public Authority Private Fire Service Tota l Sales Other Revenues Tota l Total Revenue Requirements s Exhibit 14-1 COMPARISON OF ADJUSTED COST OF SERVICE WITH REVENUES UNDER EXISTING AND PROPOSED RATES FOR TEST YEAR ENDED MARCH 31, 2023 Cost of Service Revenues, Present Rates Revenues, Proposed Rates Proposed Increase Amount Precent Amount Precent (2) (3) (4) (5) 44,816,162 70.3% 35,139,116 68.0% 18,314,608 28.7% 15,042,723 29.1% 159,553 0.3% 155,695 0.3% 499,143 0.8% 1,344,703 2.6% 63,789,466 100.0% 51,682,238 100.0% 35,620 35,620 63,825,086 s 51,717,858 $63,825,086 Amount Precent (6) (7) 43,590,762 68.3% 18,660,857 29.3% 193,144 0.3% 1,344,703 2.1% 63,789,466 100.0% 35,620 s 63,825,086 Amount (8) 8,451,646 3,618,134 37,448 0 12,107,228 0 s 12,107,227 Precent (9) 24.1% 24.1% 24.1% 0.0% 23.4% 0.00 23.4% Cost of Service Percent Increase (10) 27.5% 21.8% 2.5% 23.4% 23.4% Exhibit 14-1 Case No. VEO-W-22-02 A. Bui Page 2 of 40 Exhibit 14-2 COST OF SERVICE FOR THE TEST YEAR ENDED MARCH 31, 2023 ALLOCATED TO CUSTOMER CLASSIFICATIONS Factor Cost of Public Fire Protection Account Ref Service Residentia l Commercial Authority Private Public (1) (2) (3) (4) (5) (6) (9) (10) OPERATION AND MAINTENANCE EXPENSES SOURCE OF SUPPLY EXPENSES Operation Supervision and Engineering • _abor 2 68,558 44,753 23,624 181 0 0 Operation Supervision and Engineering • Other 2 23,939 15,627 8,249 63 0 0 Operation Supervision and Engineering • fringe Benefits 2 27,060 17,664 9,324 71 0 0 Operation Labor 2 57,703 37,667 19,&8-1 152 0 0 Operation Expenses 2 7,452 4,865 2,568 20 0 0 Operation Fringe Benefits 2 21,873 14,278 7,537 58 0 0 Purchased Water 1 316,694 203,683 111,938 1,073 0 0 M iscellaneous 2 1,119 730 386 3 0 0 Rents 2 3,385 2,210 1,167 9 0 0 TOTAL SOURCE OF SUPPLY EXPENSE· OPERATION 527,783 341,476 184,677 1,630 0 0 Maintenance of Structures and Engineering • Labor 2 10,609 6,925 3,656 28 0 0 Maintenance of Structures and Engineering • Other 2 49,301 32,183 16,989 130 0 0 Maintenance of Structures and Engineering • Fringe Benefits 2 3,181 2,076 1,096 8 0 0 Maintenance of Structures and Engineering • Rivers and lntakt 2 2,559 1,671 882 7 0 0 Maintenance of Wells and Springs • Chemicals 1 6,094 3,919 2,154 21 0 0 Maintenance of Wells and Springs 2 1,129 737 389 3 0 0 TOTAL SOURCE OF SUPPLY EXPENSE· MAINTENANCE n ,873 47,511 25,165 197 0 0 TOTAL SOURCE OF SUPPLY EXPENSES $ 600,656 $ 388,987 $ 209,842 $ 1,827 $ $ Exhibit 14-2 Case No. VEO-W-22-02 A. Bui Page 3 of 40 Exhibit 14-2 (continued) COST OF SERVICE FOR THE TEST YEAR ENDED MARCH 31, 2023 ALLOCATED TO CUSTOMER CLASSIFICATIONS Factor Cost of Public Fire Protection Account Ref Service Residential Commercial Authority Private Public (1) (2) (3) (4) (5) (6) (9) (10) PUMPING EXPENSES Operation Supervision and Engineering • Labor 3 132,841 84,876 44,807 344 560 2,256 Operation Supervision and Engineering • Other 3 n ,647 46,416 24,504 188 306 1,233 Operation Supervision and Engineering • Fringe Benefits 3 40,173 25,667 13,550 104 169 682 Fue l or Power Purchase for Pumping • Labor 3 1,291 825 436 3 5 22 Fue l or Power Purchase for Pumping • Other 3 0 0 0 0 0 0 Fue l or Power Purchase for Pumping • Power Costs 1 2,036,784 1,309,964 719,920 6,900 0 0 Fue l or Power Purchase for Pumping • Amert Power Costs 1 534,778 343,944 189,022 1,812 0 0 Fue l or Power Purchase for Pumping • Fringe Benefits 3 0 0 0 0 0 0 Pumping Expense • Laoor 3 1,223,332 781,617 412,626 3,164 5,155 20,771 Pumping Expense • Other 3 177,759 113,575 59,958 460 749 3,018 Pumping Expense • Fringe Benefits 3 487,000 311,156 164,263 1,259 2,052 8,269 Miscellaneous Exp:nditures 3 60,830 38,866 20,518 157 256 1,033 TOTAL PUMPING EXPENSE· OPERATION 4,767,435 3,056,905 1,649,603 14,391 9,252 37,284 Maintenance Supe-vision and Engineering • Labor 3 2,206 1,409 744 6 9 37 Maintenance Supe-vision and Engineering • Other 3 306 196 103 1 1 5 Maintenance Supe-vision and Engineering • Fringe Benefits 3 583 373 197 2 2 10 Maintenance of Structures and Improvements • Labor 3 0 0 0 0 0 0 Maintenance of Structures and Improvements • Other 3 215,808 137,885 n ,191 558 909 3,664 Maintenance of Structures and Improvements • Fringe Benefit 3 0 0 0 0 0 0 Maintenance of Po·uer Production Equipment • Labor 3 0 0 0 0 0 0 Maintenance of Po·uer Production Equipment • Other 3 65,176 41,642 21,984 169 275 1,107 Maintenance of Po·uer Production Equipment • Fringe Benefits 3 0 0 0 0 0 0 Maintenance of Pu11ping Equipment • Labor 3 3,631 2,320 1,225 9 15 62 Maintenance of Pu11ping Equipment • Other 3 6,893 4,404 2,325 18 29 117 Maintenance of Pu11ping Equipment • Fringe Benefits 3 1,669 1,066 563 4 7 28 TOTAL PUMPING EXPENSES · MAINTENANCE 296,273 189,296 99,932 766 1,248 5,030 TOTAL PUMPING EXPENSES $ 5,063,708 $ 3,246,201 $ 1,749,535 $ 15,157 $ 10,501 $ 42,314 Exhibit 14-2 Case No. VEO-W-22-02 A. Bui Page 4 of 40 Exhibit 14-2 (continued) COST OF SERVICE FOR THE TEST YEAR ENDED MARCH 31, 2023 ALLOCATED TO CUSTOMER CLASSIFICATIONS Factor Cost of Public Fire Protection Account Ref Service Residential Commercial Authority Private Public (1) (2) (3) (4) (5) (6) (9) (10) WATER TREATMENT Operation Supervision and Engineering • Laoor 2 789,279 515,219 271,975 2,085 0 0 Operation Supervision and Engineering • Other 2 34,541 22,548 11,903 91 0 0 Operation Supervision and Engineering • Fringe Benefits 2 28,048 18,309 9,665 74 0 0 Chemica ls 1 519,783 334,300 1s3,n2 1,761 0 0 Operation Labor and Expenses • Labor 2 73,295 47,845 25,256 194 0 0 Operation Labor and Expenses • Other 2 156,821 102,368 54,039 414 0 0 Operation Labor and Expenses • Lab Testing 2 159,423 104,067 54,935 421 0 0 Operation Labor and Expenses • Fringe Benefits 2 311,750 203,501 107,425 823 0 0 Miscellaneous Exp,enses • Labor 2 0 0 0 0 0 0 M iscellaneous Exp,enses • Other 2 30,285 19,769 10,436 80 0 0 M iscellaneous Exp,enses • Fringe Benefits 2 0 0 0 0 0 0 Amortization Miscellaneous 2 0 0 0 0 0 0 TOTAL WATER TREATMENT EXPENSE· OPERATION 2,103,225 1,367,926 n9,356 5,943 0 0 Maintenance Supe rvision and Engineering 2 0 0 0 0 0 0 Maintenance of Structures and Improvements • Labor 2 0 0 0 0 0 0 Maintenance of Structures and Improvements • Other 2 61,281 40,002 21,117 162 0 0 Maintenance of Structures and Improvements • Lab Testing 2 0 0 0 0 0 0 Maintenance of Structures and Improvements • Fringe Benefit 2 0 0 0 0 0 0 Maintenance of Water Treatment Equipment • Labor 2 0 0 0 0 0 0 Maintenance of Water Treatment Equipment • Other 2 $3,146 34,692 18,313 140 0 0 Maintenance of Water Treatment Equipment • Fringe Benefits 2 0 0 0 0 0 0 TOTAL WATER TREATMENT EXPENSE· MAINTENANCE 114,427 74,695 39,430 302 0 0 TOTAL WATER TREATMENT EXPENSE $ 2,217,652 $ 1,442,620 $ 768,786 $ 6,245 $ $ Exhibit 14-2 Case No. VEO-W-22-02 A. Bui Page 5 of 40 Exhibit 14-2 (continued) COST OF SERVICE FOR THE TEST YEAR ENDED MARCH 31, 2023 ALLOCATED TO CUSTOMER CLASSIFICATIONS Factor Cost of Public Fire Protection Account Ref Service Residential Commercial Authority Private Public (1) (2) (3) (4) (S) (6) (9) (10) TRANSMISSION AND DISTRIBUTION EXPENSES Operation Supervision and Engineering • _abor 10 47,63S 30,818 16,336 160 64 2S7 Operation Supervision and Engineering • Other 10 4,334 2,804 1,486 1S 6 23 Operation Supervision and Engineering • fringe Benefits 10 13,319 8,617 4,S68 4S 18 n Storage Facility Expense s 10,0S9 7,171 2,23S 36 122 494 Mains Expense • Labor 6 4,618 3,089 1,243 14 S4 218 Mains Expense • Other 6 42,199 28,228 11,3S7 131 494 1,989 Mains Expense • Fringe Benefits 6 1,632 1,092 439 s 19 77 Meter Expense • Labor 8 426 278 146 1 0 0 Meter Expense • Other 8 so 33 17 0 0 0 Meter Expense • Fringe Benefits 8 193 126 66 1 0 0 M iscellaneous Expense • Purchased Power 1 455,256 292,800 160,91S 1,S42 0 0 Miscellaneous Expense • Other 10 64,904 41,990 22,2S8 218 87 3S0 TOTAL T&D EXPENSE· OPERATION 644,626 417,046 221,068 2,169 864 3,481 Maintenance Supervision and Engineering 11 49,43S 39,n 3 8,882 101 14S S84 Maintenance of Structures and Improvements • Labor 11 0 0 0 0 0 0 Maintenance of Structures and Improvements • Other 11 0 0 0 0 0 0 Maintenance of Structures and Improvements • Fringe Benefit 11 1S,020 12,069 2,699 31 44 178 Maintenance of Distribution Reservoirs and Standpipes s 197,877 141,073 43,974 713 2,409 9,708 Maintenance of T&D Mains • Labor 6 S9S 398 160 2 7 28 Maintenance of T&D Mains • Other 6 33,825 22,626 9,104 10S 396 1,S9S Maintenance of T&D Mains • Fringe Benefits 6 217 14S S9 1 3 10 Maintenance of Services • Labor 9 1,S4S,679 1,269,297 273,400 2,982 0 0 Maintenance of Services • Other 9 307,427 2S2,4S6 S4,378 S93 0 0 Maintenance of Services • Fringe Benefits 9 607,892 499,19S 107,S24 1,173 0 0 Maintenance of Hydrants • Other 7 2S,960 0 0 0 S,161 20,799 Miscellaneous 11 2,468 1,983 443 s 7 29 TOTAL T&D EXPENSE • MAINTENANCE 2,786,397 2,238,966 S00,623 S,706 8,l n 32,931 TOTAL T&D EXPENSE $ 3,431,023 $ 2,656,011 $ n l,690 $ 7,87S $ 9,036 $ 36,411 Exhibit 14-2 Case No. VEO-W-22-02 A. Bui Page 6 of 40 Account (1) CUSTOMER ACCOUNTS Supervision • Labor Supervision • Other Supervision • Fringe Benefits Meter Read ing • La:,.or Meter Read ing • Ot1er Meter Read ing • Fringe Benefits Customer Records and Collection • Labor Customer Records and Collection • Other Customer Records and Collection • Fringe Benefits Transportation Costs • Other Uncollectible Accounts Misce llaneous Other TOTAL CUSTOMER ACCOUNTING EXPENSES Exhibit 14-2 (continued) COST OF SERVICE FOR THE TEST YEAR ENDED MARCH 31, 2023 ALLOCATED TO CUSTOMER CLASSIFICATIONS Factor Cost of Ref Service Residentia l Commercial (2) (3) (4) (5) 12 76,463 67,066 7,4n 12 10,649 9,341 1,041 12 29,341 25,735 2,867 13 338,593 278,049 59,890 13 86,715 71,209 15,338 13 130,559 107,214 23,093 12 1,329,401 1,166,027 129,918 12 770,888 676,151 75,336 12 516,452 452,984 50,471 12 0 0 0 12 (683,545) (599,542) (66,801) 12 13,881 12,175 1,357 2,619,397 2,266,409 299,984 Public Fire Protection Authority Private Public (6) (9) (10) 77 1,847 0 11 257 0 30 709 0 653 0 0 167 0 0 252 0 0 1,340 32,116 0 777 lS.623 0 521 12,477 0 0 0 0 (689) (16,513) 0 14 335 0 3,153 49,852 0 Exhibit 14-2 Case No. VEO-W-22-02 A. Bui Page 7 of 40 Exhibit 14-2 (continued) COST OF SERVICE FOR THE TEST YEAR ENDED MARCH 31, 2023 ALLOCATED TO CUSTOMER CLASSIFICATIONS Factor Cost of Public Fire Protection Account Ref Service Residential Commercial Authority Private Public (1) (2) (3) (4) (S) (6) (9) (10) ADMINISTRATIVE AND GENERAL EXPENSES A&G Labor 14 1,907,210 1,415,011 461,242 4,116 12,S74 14,266 Fringe Benefits Transferred 16 (3,704,510) (2,799,531) (853,481) (7,548) (25,500) (18,450) Employee Pension Cost 16 623,218 470,9n 143,583 1,270 4,290 3,104 Post Retirement Health Care Accrue 16 (S23,7S6) (395,807) (120,668) (1,067) (3,605) (2,608) Employee Group Health & life 16 2,103,710 1,589,793 484,673 4,286 14,481 10,477 Employee 401k 16 4S6,431 344,929 10S,1S7 930 3,142 2,273 Other Employee Benefits 16 14,634 11,0S9 3,3n 30 101 73 Other Aw ards 16 22,78S 17,219 S,249 46 1S7 113 Materials and Supply • A&G and Customer Cares 14 932,132 691,S74 225,428 2,012 6,146 6,973 Management Fees • Other 14 4,S66,63S 3,388,111 1,104,401 9,85S 30,108 34,160 Contract Services 14 1S0,202 111,439 36,32S 324 990 1,124 Renta l of Equipment 14 8,938 6,632 2,162 19 S9 67 Transportation Expense 14 238,006 176,583 S7,S60 S14 1,S69 1,780 Insurance • Ge neral liability 14 242,S24 179,93S 58,6S2 S23 1,S99 1,814 Insurance • Workman's Compensation 16 116,207 87,819 26,773 237 800 S79 Advertising 14 227,683 168,924 SS,063 491 1,S01 1,703 Reg Commission Exp (Amortization) 14 401,670 298,010 97,140 867 2,648 3,00S Bad Debt Write-off 16 988,608 747,100 227,76S 2,014 6,80S 4,924 M isce llaneous Expense 14 (221,568) (164,387) (53,584) (478) (1,461) (1,657) TOTALA&G EXPENSE 8,SS0,758 6,345,382 2,066,813 18,441 S6,404 63,719 TOTAL OPERATION & MAINTENANCE EXPENSE $ 22,483,19S $ 16,345,611 $ S,816,6S0 $ S2,698 $ 125,792 $ 142,444 TOTAL OPERATION & MAINTENANCE EXPENSE $ 10,524,398 $ 7,808,338 $ 2,S4S,23S $ 22,712 $ 69,388 $ 78,n6 (excluding A&G, purchased water, power, and chemicals) DIRECT LABOR EXPENSE $ 7,613,366 $ S,753,488 $ 1,754,042 $ 1S,S12 $ S2,407 $ 37,917 Exhibit 14-2 Case No. VEO-W-22-02 A. Bui Page 8 of 40 Exhibit 14-2 (continued) COST OF SERVICE FOR THE TEST YEAR ENDED MARCH 31., 2023 ALLOCATED TO CUSTOMER CLASSIFICATIONS Fa ctor Cost of Public Fire Protection Account Ref Service Residential Commercial Authority Private Public (1) (2) (3) (4) (S) (6) (9) (10) DEPRECIATION EXPENSE Structures and Improvements • Source of Supply 2 194,554 126,999 67,041 514 0 0 Structures and Improvements • Water Treatment 2 379,02S 247,417 130,607 1,001 0 0 Structures and Improvements • Trans. & Oistrib. 6 9S,S97 63,947 zs,n9 296 1,118 4,S07 Structures and Improvements • General Plant 14 174,70S 129,618 42,2S1 377 1,1S2 1,307 Collecting & Impounding Reservoirs • Source of Supply 1 749 482 26S 3 0 0 Lake, River & Other Intakes 2 24,347 1S,893 8,390 64 0 0 Wells &Springs 2 141,814 92,Sn 48,867 37S 0 0 Supply Mains 2 39,3S2 2S,688 13,S60 104 0 0 Power Generation Equipment 3 1S3,188 97,876 S1,670 396 64S 2,601 Pow er Electric/Diesel Pumping Equipment • Source of Supply 2 760,618 496,S10 262,099 2,009 0 0 Power Pumping Equipment • Water Treatment 2 217,301 141,848 74,879 S74 0 0 Power Pumping Equipment • Trans. & Oistrib. 3 470,931 300,889 158,844 1,218 1,984 7,996 Water Treatment Equipment 2 973,163 635,253 335,340 2,S70 0 0 Distribution Reservoirs & Standpipes s 364,27S 2S9,703 80,9S2 1,312 4,43S 17,8n Trans. & Distrib. Mains & Accessories 3 2,626,679 1,678,249 885,970 6,793 11,068 44,598 Services 9 1,667,829 1,369,60S 295,006 3,218 0 0 Meters and Meter Installations 8 1,020,091 666,492 3S0,2S0 3,349 0 0 Hydrants 7 273,666 0 0 0 S4,410 219,256 Office Furniture and Equipment 14 83,330 61,82S 20,lS.3 180 S49 623 Computer Equipme nt 12 90,241 79,1S1 8,819 91 2,180 0 Transportation Equipment 14 140,248 104,0S4 33,918 303 92S 1,049 Stores Equipment 14 10,297 7,640 2,490 22 68 77 Tools, Shop and Garage Equipment 14 108,87S 80,778 26,331 23S 718 814 Laboratory Equipment 2 S,747 3,7S1 1,980 1S 0 0 Pow er Operated Equipment 14 77,063 S7,17S 18,637 166 S08 S76 Communications Equipment 14 320,581 237,848 77,S30 692 2,114 2,398 Miscellaneous Equipment 14 21,107 1S,660 S,10S 46 139 158 Other Tangible Property 14 211,717 1S7,079 S1,202 4S7 1,396 1,584 TOTAL DEPRECIATION EXPENSES 10,647,090 7,154,000 3,077,884 26,380 83,410 305,417 Exhibit 14-2 Case No. VEO-W-22-02 A. Bui Page 9 of 40 Exhibit 14-2 (oontinued) COST OF SERVICE FOR THE TEST YEAR ENDED MARCH 31, 2023 ALLOCATED TO CUSTOMER CLASSIFICATIONS Factor Cost of Public Fire Protection Account Ref Service Residentia l Commercial Authority Private Public (1) (2) (3) (4) (5) (6) (9) (10) Amortization of Utility Plant Acquisition 17 282,585 185,800 82,375 697 2,708 11,004 TOTAL AMORTIZATION 282,585 185,800 82,375 697 2,708 11,004 TAXES OTHER THAN INCOME Real Estate 18 2,145,032 1,412,224 624,412 5,290 20,447 82,659 Payroll Taxes 16 898,783 679,219 207,070 1,831 6,187 4,476 TOTAL TAXES, OTHER THAN INCOME 3,043,815 2,091,443 831,483 7,121 26,634 87,135 INCOME TAXES 18 5,567,006 3,665,149 1,620,539 13,n8 53,065 214,525 UTILITY INCOME AVAILABLE FOR RETURN 18 21,801,395 14,353,380 6,346,321 53,763 207,814 840,118 TOTAL COST OF SERVICE s 63,825,086 s 43,795,383 s 17,775,251 s 154,386 s 499,422 s 1,600,643 LESS: OTHER WATER RESOURCES Miscellaneous Service Revenue 19 35,620 24,442 9,920 86 279 893 TOTAL OTHER WATER REVENUES 35,620 24,442 9,920 86 279 893 TOTAL COST OF SERVICE RELATED TO SALES OF WATER s 63,789,466 s 43,770,941 s 17,765,331 s 154,300 s 499,143 s 1,599,750 Reallocation of Public Fire 20 1,045,221 549,276 5,252 0 (1,599,750) TOTAL s 63,789,466 s 44,816,162 18,314,608 159,553 499,143 0 Exhibit 14-2 Case No. VEO-W-22-02 A. Bui Page 10 of 40 Exhibit 14-2 (continued) COST OF SERVICE FOR THE TEST YEAR ENDED MARCH 31, 2023 ALLOCATED TO CUSTOMER CLASSIFICATIONS Factor Cost of Public Fire Protection Account Ref Service Residential Commercial Authority Private Public (1) (2) (3) (4) (5) (6) (9) (10) RATE BASE Organization 17 104,530 68,n9 30,471 258 1,002 4,071 Franchise Rights 17 30,079 19,777 8,768 74 288 1,171 Land & Land Rights• Source of Supply 2 2,930,331 1,912,836 1,009,755 7,739 0 0 Water Rights • Source of Supply 2 8,666,083 s,656,9n 2,986,223 22,888 0 0 Land & Land Rights• Water Treatment 2 889,034 580,336 306,350 2,348 0 0 Land & Land Rights• Trans. & Oistrib. 6 9n,360 650,428 261,702 3,014 11,376 45,840 Land & Land Rights· General Plant 14 213,383 158,315 51,605 460 1,407 1,596 Structures and lmp·ovements • Source of Supply 2 6,701,625 4,374,630 2,309,295 17,700 0 0 Structures ana lmp·ovements • Water lreatment l Y,:lb~,Y~~ b,11::1,~ ::l,l.1/,400 l.4,/'j / 0 0 Structures and lmp·ovements • Trans. & Oistrib. 6 2,588,550 1,731,526 696,686 8,024 30,283 122,032 Structures and lmp·ovements • General Plant 14 4,705,847 3,491,396 1,138,068 10,155 31,026 35,201 Collecting & Impounding Reservoirs • Source of Supply 1 42,358 27,242 14,9n 143 0 0 Lake, River & Other Intakes 2 916,500 598,265 315,814 2,421 0 0 Wells & Springs 2 4,767,393 3,112,018 1,642,783 12,591 0 0 Infiltration Galleries & Tunnels 2 (13,853) (9,043) (4,773) (37) 0 0 Supply Mains 2 2,108,262 1,376,214 n6,480 5,568 0 0 Power Generation Equipment 3 1,690,822 1,080,308 570,309 4,373 7,124 28,709 Power Electric/Diesel Pumping Equipment • Source of Supply 2 6,261,1n 4,091,423 2,159,795 16,554 0 0 Power Pumping Equipment • Water Treatment 2 2,588,051 1,689,406 891,810 6,835 0 0 Power Pumping Equipment • Trans. & Oistrib. 3 6,705,307 4,284,185 2,261,679 17,341 28,253 113,850 Water Treatment Equipment 2 13,826,487 9,025,537 4,764,433 36,518 0 0 Distribution Resen•oirs &Standpipes 5 16,648,471 11,869,214 3,699,7n 59,966 202,701 816,818 Trans. & Oistrib. Mains & Accessories 3 188,104,746 120,184,n2 63,447,133 486,474 792,580 3,193,836 Services 9 69,649,980 57,195,875 12,319,712 134,394 0 0 Meters and Meter Insta llations 8 17,150,501 11,205,542 5,888,649 56,311 0 0 Hydrants 7 13,289,464 0 0 0 2,642,213 10,647,251 Exhibit 14-2 Case No. VEO-W-22-02 A. Bui Page 11 of 40 Exhibit 14-2 (continued) COST OF SERVICE FOR THE TEST YEAR ENDED MARCH 31, 2023 ALLOCATED TO CUSTOMER CLASSIFICATIONS f .actor Cost of Public Fire Protection Account Ref Service Residential Commercial Authority Private Public (1) (2) (3) (4) (S) (6) (9) (10) Office Furniture and Equipment 14 n1,021 539,397 175,824 1,S69 4,793 S,438 Computer Equipment 12 (4,458,247) (3,910,359) (435,690) (4,495) (107,704) 0 Transportation Equipment 14 1,312,956 974,118 317,527 2,833 8,656 9,821 Stores Equipment 14 203,117 1S0,698 49,122 438 1,339 1,S19 Tools, Shop and Garage Equipment 14 1,336,961 991,928 323,332 2,88S 8,81S 10,001 Laboratory Equipm ent 2 20,n2 13,S27 7,141 ss 0 0 Power Operated Equipment 14 625,068 463,755 1S1,167 1,349 4,121 4,676 Communications Equipment 14 3,927,823 2,914,159 949,910 8,476 2S,896 29,381 Miscellaneous Equipment 14 243,187 180,427 S8,813 S25 1,603 1,819 Other Tangible Property 14 2,744,882 2,036,503 663,826 S,923 18,097 20,533 TOTAL UTILITY PLANT IN SERVICE 387,593,558 254,843,853 112,985,862 9S6,410 3,713,870 1S,093,S63 TOTAL UTILITY PLANT IN SERVICE $ 387,4S8,9S0 $ 254,755,347 $112,946,623 $ 9S6,077 $ 3,712,581 $ 15,088,321 (less Ref 17 items) OTHER RATE BASE ITEMS Utility Plant Acquisition Adjustment 17 10,771,089 7,082,021 3,139,837 26,578 103,207 419,445 Customer Advances for Construction 17 (3,797,814) (2,497,073) (1,107,086) (9,371) (36,390) (147,893) Contributions in Aid of Construction-Net 17 (112,913,n O) (74,241,088) (32,915,031) (278,621) (1,081,924) (4,397,0SS) Deferred Charges Included in Rate Base 17 4,933,851 3,244,021 1,438,247 12,17S 47,276 192,133 Working Capital Allowance 1S 3,5S2,S71 2,582,771 919,089 8,327 19,876 22,S08 Deferred Income Ta xes 17 (5,307,577) (3,489,747) (1,547,191) (13,097) (50,857) (206,686) TOTAL OTHER RATE BASE ELEMENTS (102,761,600) (67,319,095) (3o,on ,nsi (254,010) (998,812) (4,117,SSO) TOTAL ORIGINAL COST MEASURE OF VALUE $ 284,831,9S9 $ 187,S24,7S8 s s2,913,n9 $ 702,400 $ 2,71S,0S8 $ 10,976,013 Exhibit 14-2 Case No. VEO-W-22-02 A. Bui Page 12 of 40 Exhibit 14-3 COST OF SERVICE FOR THE TEST YEAR ENDED MARCH 31, 2023 ALLOCATED TO COST FUNCTIONS Factor Cost of Billing & Fire Account Ref Service Base Max Dav Max Hour Meters Services Meters Services (1) (2) (3) (4) (5) (6) (7) (8) (9) (10) OPERATION AND MAINTENANCE EXPENSES SOURCE OF SUPPLY EXPENSES Operation Supervision and Engineering • Labor 2 68,558 34,399 34,159 0 0 0 0 0 Operation Supervision and Engineering • Other 2 23,939 12,011 11,928 0 0 0 0 0 Operation Supervision and Engineering • Fringe Benefits 2 27,060 13,577 13,483 0 0 0 0 0 Operation Labor 2 57,703 28,953 28,751 0 0 0 0 0 Operation Expenses 2 7,452 3,739 3,713 0 0 0 0 0 Operation Fringe Benefits 2 21,873 10,975 10,898 0 0 0 0 0 Purchased Water 316,694 316,694 0 0 0 0 0 0 Miscellaneous 2 1,119 561 558 0 0 0 0 0 Rents 2 3,385 1,699 1,687 0 0 0 0 0 TOTAL SOURCE OF SUPPLY EXPENSE· OPERATION 527,783 422,608 105,175 0 0 0 0 0 Maintenance of Structures and Engineering • Labor 2 10,609 5,323 5,286 0 0 0 0 0 Maintenance of Structures and Engineering • Other 2 49,301 24,737 24,564 0 0 0 0 0 Maintenance of Structures and Engineering • Fringe Benefits 2 3,181 1,596 1,585 0 0 0 0 0 Maintenance of Structures and Engineering • Rivers. and lntakt 2 2,559 1,284 1,275 0 0 0 0 0 Maintenance of Wells and Springs • Chemicals 6,094 6,094 0 0 0 0 0 0 Maintenance of Wells and Springs 2 1,129 566 562 0 0 0 0 0 TOTAL SOURCE OF SUPPLY EXPENSE· MAINTENANCE TI,873 39,600 33,273 0 0 0 0 0 TOTAL SOURCE OF SUPPLY EXPENSES s 600,656 s 462,208 s 138,448 s s s s s Exhibit 14-3 Case No. VEO-W-22-02 A. Bui Page 13 of 40 Exhibit 14-3 (continued) COST OF SERVICE FOR THE TEST YEAR ENDED MARCH 31, 2023 ALLOCATED TO COST FUNCTIONS Factor Cost of Billing & Fire Account Ref Service Base Max Dav Max Hour Meters Services Meters Services (1) (2) (3) (4) (5) (6) (7) (8) (9) (10) PUMPING EXPENSES Operation Supervision and Engineering • Labor 3 132,841 65,331 64,695 0 0 0 0 2,815 Operation Supervision and Engineering • Other 3 n ,647 35,n8 35,380 0 0 0 0 1,540 Operation Supervision and Engineering • Fringe Benefits 3 40,173 19,757 19,565 0 0 0 0 851 Fuel or Power Purchase for Pumping • Labor 3 1,291 635 629 0 0 0 0 27 Fuel or Power Purchase for Pumping • Other 3 0 0 0 0 0 0 0 0 Fuel or Power Purchase for Pumping • Power Costs 2,036,784 2,036,784 0 0 0 0 0 0 Fuel or Power Purchase for Pumping • Amert Power Costs 534,778 534,778 0 0 0 0 0 0 Fuel or Power Purchase for Pumping • Fringe Benefits 3 0 0 0 0 0 0 0 0 Pumping Expense • Labor 3 1,223,332 601,633 595,774 0 0 0 0 25,926 Pumping Expense • Other 3 177,759 87,422 86,570 0 0 0 0 3,767 Pumping Expense • Fringe Benefits 3 487,000 239,506 237,173 0 0 0 0 10,321 Miscellaneous Expenditures 3 60,830 29,916 29,625 0 0 0 0 1,289 TOTAL PUMPING EXPENSE· OPERATION 4,767,435 3,651,488 1,069,410 0 0 0 0 46,536 Maintenance Supervision and Engineering • Labor 3 2,206 1,085 1,074 0 0 0 0 47 Maintenance Supervision and Engineering • Other 3 306 151 149 0 0 0 0 6 Maintenance Supervision and Engineering • Fringe Benefits 3 sg3 287 284 0 0 0 0 12 Maintenance of Structures and Improvements • labsor 3 0 0 0 0 0 0 0 0 Maintenance of Structures and Improvements • Other 3 215,808 106,134 105,101 0 0 0 0 4,574 Maintenance of Structures and Improvements • Fringe Benefit 3 0 0 0 0 0 0 0 0 Maintenance of Power Production Equipment • l abor 3 0 0 0 0 0 0 0 0 Maintenance of Power Production Equipment • Other 3 65,176 32,053 31,741 0 0 0 0 1,381 Maintenance of Power Production Equipment • Fringe Benefit~ 3 0 0 0 0 0 0 0 0 Maintenance of Pumping Equipment • labor 3 3,631 1,786 1,769 0 0 0 0 77 Maintenance of Pumping Equipment• Other 3 6,893 3,390 3,357 0 0 0 0 146 Maintenance of Pumping Equipment • Fringe Benefits 3 1,669 821 813 0 0 0 0 35 TOTAL PUMPING EXPENSES · MAINTENANCE 296,273 145,706 144,288 0 0 0 0 6,279 TOTAL PUMPING EXPENSES $ 5,063,708 $ 3,797,195 $ 1,213,698 $ $ $ $ $ 52,815 Exhibit 14-3 Case No. VEO-W-22-02 A. Bui Page 14 of 40 Exhibit 14-3 (continued) COST OF SERVICE FOR THE TEST YEAR ENDED MARCH 31, 2023 ALLOCATED TO COST FUNCTIONS Factor Cc,st of Billing & Fire Account Re f Service Base Max Dav Mex Hour Meters Services Meters Services (1) (2) (3) (4) (S) (6) (7) (8) (9) (10) WATER TREATMENT Operation Supervision and Engineering • Labor 2 789,279 396,020 393,2S9 0 0 0 0 0 Operation Supervision and Engineering • Other 2 34,S41 17,331 17,210 0 0 0 0 0 Operation Supervision and Engineering • Fringe Benefits 2 28,048 14,073 13,97S 0 0 0 0 0 Chemicals S19,783 S19,783 0 0 0 0 0 0 Operation Labor and Expenses • Labor 2 73,29S 36,776 36,S19 0 0 0 0 0 Operation Labor and Expenses • Other 2 1S6,821 78,68S 78,136 0 0 0 0 0 Operation Labor and Expenses • Lab Testing 2 1S9,423 79,990 79,433 0 0 0 0 0 Operation Labor and Expenses • Fringe Benefits 2 311,7S0 1S6,420 lSS,330 0 0 0 0 0 Miscellaneous Expenses• Labor 2 0 0 0 0 0 0 0 0 Miscellaneous Expenses• Other 2 30,28S 1S,196 1S,090 0 0 0 0 0 Miscellaneous Expenses• Fringe Benefits 2 0 0 0 0 0 0 0 0 Amortization Miscellaneous 2 0 0 0 0 0 0 0 0 TOTAL WATER TREATMENT EXPENSE· OPERATION 2,103,22S 1,314,273 788,9S2 0 0 0 0 0 M.=iinrpn;:inn:o .c;ur,.Prvic;_inn .=inr1 Fne inPPrine 7 0 0 0 0 0 0 0 0 Maintenance of Structures and Improvements• Labor 2 0 0 0 0 0 0 0 0 Maintenance of Structures and Improvements• Other 2 61,281 30,748 30,S33 0 0 0 0 0 Maintenance of Structures and Improvements• Lab Testing 2 0 0 0 0 0 0 0 0 Maintenance of Structures and Improvements• Fringe Benefit 2 0 0 0 0 0 0 0 0 Maintenance of Water Treatment Equipment • Labor 2 0 0 0 0 0 0 0 0 Maintenance of Water Treatment Equipment • Other 2 S3,146 26,666 26,480 0 0 0 0 0 Maintenance of Water Treatment Equipment • Fringe Benefits 2 0 0 0 0 0 0 0 0 TOTAL WATER TREATMENT EXPENSE· MAINTENANCE 114,427 S7,414 S7,013 0 0 0 0 0 TOTAL WATER TREATMENT EXPENSE s 2,217,652 s 1,371,687 s 84S,96S s s s s s Exhibit 14-3 Case No. VEO-W-22-02 A. Bui Page 15 of 40 Exhibit 14-3 (continued) COST OF SERVICE FOR THE TEST YEAR ENDED MARCH 31, 2023 ALLOCATED TO COST FUNCTIONS Factor Cost of Billing & Fire Account Ref Service Base Max Dav Max Hour Meters Services Meters Services (1) (2) (3) (4) (5) (6) (7) (8) (9) (10) TRANSMISSION AND DISTRIBUTION EXPENSES Operation Supervision and Engineering • Labor 10 47,635 43,937 954 2,361 62 0 0 321 Operation Supervision and Engineering • Other 10 4,334 3,997 87 215 6 0 0 29 Operation Supervision and Engineering • Fringe Benefits 10 13,319 12,285 267 660 17 0 0 90 Storage Facility Expense 10,059 2,409 0 7,034 0 0 0 616 Mains Expense • Labor 6 4,618 1,604 982 1,760 0 0 0 2n Mains Expense • Other 6 42,199 14,660 8,971 16,085 0 0 0 2,483 Mains Expense • Fringe Benefits 6 1,632 567 347 622 0 0 0 96 Meter Expense • Labor 8 426 0 0 0 426 0 0 0 Meter Expense • Other 8 50 0 0 0 50 0 0 0 Meter Expense • Fringe Benefits 8 193 0 0 0 193 0 0 0 Miscellaneous Expense • Purchased Power 455,256 455,256 0 0 0 0 0 0 Miscellaneous Expense • Other 10 64,904 59,866 1,300 3,217 84 0 0 437 Miscellaneous Expense • Fringe Benefits 10 0 0 0 0 0 0 0 0 TOTAL T&D EXPENSE· OPERATION 644,626 594,582 12,907 31,956 838 0 0 4,344 Maintenance Supervision and Engineering 11 49,435 1,080 134 2,755 0 44,737 0 n9 Maintenance of Structures and Improvements • Fringe Benefit 11 15,020 328 41 837 0 13,593 0 222 Maintenance of Distribution Reservoirs and Standpipes 197,877 47,388 0 138,3n 0 0 0 12,118 Maintenance of T&D Mains• Lab-,r 6 595 207 126 227 0 0 0 35 Maintenance of T&D Mains• Other 6 33,825 11,751 7,191 12,893 0 0 0 1,990 Maintenance of T&D Mains• Fringe Benefits 6 217 )6 46 83 0 0 0 13 Maintenance of Services• Labor 9 1,545,679 0 0 0 0 1,545,679 0 0 Maintenance of Services• Other 9 307,427 0 0 0 0 307,427 0 0 Maintenance of Services• Fringe Benefits 9 607,892 0 0 0 0 607,892 0 0 Maintenance of Hydrants• Other 7 25,960 0 0 0 0 0 0 25,960 Miscellaneous 11 2,468 54 7 138 0 2,233 0 36 TOTAL T&D EXPENSE • MAINTENANCE 2,786,397 60,883 7,545 155,305 0 2,521,562 0 41,103 TOTAL T&D EXPENSE $ 3,431,023 $ 655,464 $ 20,451 $ 187,260 $ 838 $ 2,521,562 $ $ 45,447 Exhibit 14-3 Case No. VEO-W-22-02 A. Bui Page 16 of 40 Account (1) CUSTOMER ACCOUNTS Supervision • Labor Supervision • Other Supervision • Fringe Benefits Meter Reading • Labor Meter Reading • Other Meter Reading • Fringe Benefits Customer Records and Collection • Labor Customer Records and Collection • Other Customer Records and Collection • Fringe Benefits Transportation Costs • Other Uncollectible Accounts Miscellaneous Other TOTAL CUSTOMER ACCOUNTING EXPENSES Factor Ref (2) 12 12 12 13 13 13 12 12 12 12 12 12 Exhibit 14-3 (oontinue<I) COST OF SERVICE FOR THE TEST YEAR ENDED MARCH 31, 2023 ALLOCATED TO COST FUNCTIONS Cost of Service Base Max Dav Max Hour (3) (4) (S) (6) 76,463 0 0 0 10,649 0 0 0 29,341 0 0 0 338,S93 0 0 0 86,71S 0 0 0 130,559 0 0 0 1,329,401 0 0 0 770,888 0 0 0 S16,4S2 0 0 0 0 0 0 0 (683,S4S) 0 0 0 13,881 0 0 0 2,619,397 0 0 0 Billing & Fire Meters Services Meters Services (7) (8) (9) (10) 0 0 74,616 1,847 0 0 10,392 2S7 0 0 28,632 709 0 0 338,S93 0 0 0 86,71S 0 0 0 130,559 0 0 0 1,297,28S 32,116 0 0 7S2,26S 18,623 0 0 S03,97S 12,477 0 0 0 0 0 0 (667,032) (16,513) 0 0 13,S4S 33S 0 0 2,S69,S46 49,8S2 Exhibit 14-3 Case No. VEO-W-22-02 A. Bui Page 17 of 40 Exhibit 14-3 (continued) COST OF SERVICE FOR THE TEST YEAR ENDED MARCH 3L 2023 ALLOCATED TO COST FUNCTIONS Factor Cost of Billing & Fire Account Ref Service Base Max Day Max Hour Meters Services Meters Services (1) (2) (3) (4) (S) (6) (7) (8) (9) (10) ADMINISTRATIVE AND GENERAL EXPENSES A&G Labor 14 1,907,210 S21,639 402,043 33,93S 1S2 4S6,9S2 46S,648 26,841 Fringe Benefits Transferred 16 (3, 704,S10) (846,321) (761,994) (18,628) (311) (974,440) (1,058,866) (43,9S0) Employee Pension Cost 16 623,218 142,378 128,192 3,134 52 163,932 178,136 7,394 Post Retirement Health Care Accrue 16 (S23,7S6) (119,6S6) (107,733) (2,634) (44) (137,770) (149,706) (6,214) Employee Group Health & life 16 2,103,710 480,607 432,n O 10,S78 177 SS3,363 601,307 24,9S8 Employee 401k 16 4S6,431 104,27S 93,88S 2,29S 38 120,060 130,462 S,41S Other Employee Benefits 16 14,634 3,343 3,010 74 3,849 4,183 174 Other Awards 16 22,78S S,20S 4,687 11S 2 S,993 6,S13 270 Materials and Supply• A&G and Customer Cares 14 932,132 254,946 196,49S 16,S8S 74 223,331 227,S81 13,118 Management Fees • Other 14 4,S66,63S 1,249,01S 962,6SS 81,2S4 364 1,094,129 1,il14,9SO 64,268 Contract Services 14 1S0,202 41,081 31,663 2,673 12 3S,987 36,6n 2,114 Rental of Equipment 14 8,938 2,44S 1,884 1S9 2,142 2,182 126 Transportation Expense 14 238,006 6S,097 so,1n 4,23S 19 S7,024 S8,109 3,3S0 Insurance • General liability 14 242,S24 66,333 S1,12S 4,31S 19 S8,107 S9,213 3,413 Insurance • Workman's Compensation 16 116,207 26,S48 23,903 S84 10 30,S67 33,216 1,379 Advertising 14 227,683 62,273 47,996 4,0S1 18 S4,SSl SS,S89 3,204 Reg Commission Exp (Amortization) 14 401,670 109,860 84,673 7,147 32 96,237 98,068 S,6S3 Bad Debt Write-off 16 988,608 22S,8S4 203,3SO 4,971 83 260,04S 282,S76 11,n9 Miscellaneous Expense 14 (221,568) (60,601) (46,707) (3,942) (18) (S3,086) (S4,096) (3,118) TOTALA&G EXPENSE 8,SS0,7S8 2,334,322 1,802,019 1S0,901 682 2,0S0,976 2,091,736 120,123 TOTAL OPERATION & MAINTENANCE EXPENSE s 22,483,19S s 8,620,876 s 4,020,S81 s 338,162 s 1,S20 s 4,Sn,538 s 4,561,282 s 268,236 TOTAL OPERATION & MAINTENANCE EXPENSE s 10,S24,398 s 2,878,S1S s 2,218,S63 s 187,260 s 838 s 2,S21,S62 s 2,569,546 s 148,114 (excluding A&G, purchased water, power, and chemicals) DIRECT LABOR EXPENSE s 7,613,366 s 1,739,326 s 1,S66,020 s 38,283 s 640 s 2,002,632 s 2,176,142 s 90,324 Exhibit 14-3 Case No. VEO-W-22-02 A. Bui Page 18 of 40 Exhibit 14-3 (continued) COST OF SERVICE FOR THE TEST YEAR ENDED MARCH 31, 2023 ALLOCATED TO COST FUNCTIONS Factor Cost of Billing & Fire Account Ref Service Base Max Dav Max Hour Meters Services Meters Services (1) (2) (3) (4) (5) (6) (7) (8) (9) (10) DEPRECIATION EXPENSE Structures and Improvements • Source of Supply 2 194,554 97,61.7 96,937 0 0 0 0 0 Structures and Improvements• Water Treatment 2 379,025 190,175 188,850 0 0 0 0 0 Structures and Improvements • Trans. & Oistrib. 6 95,597 33,21.0 20,323 36,439 0 0 0 5,625 Structures and Improvements• General Plant 14 174,705 47,783 36,828 3,109 14 41,858 42,654 2,459 Collecting & Impounding Reservoirs • Source of Supply 1 749 749 0 0 0 0 0 0 Lake, River & Other Intakes 2 24,347 12,21.6 12,131 0 0 0 0 0 Wells & Springs 2 141,814 71,156 70,659 0 0 0 0 0 Supply Mains 2 39,352 19,745 19,607 0 0 0 0 0 Power Generation Equipment 3 153,188 75,33,8 74,604 0 0 0 0 3,246 Power Electric/Diesel Pumping Equipment• Source of Supply 2 760,618 381,639 378,979 0 0 0 0 0 Power Pumping Equipment • Water Treatment 2 217,301 109,03-0 108,270 0 0 0 0 0 Power Pumping Equipment • Trans. & Oistrib. 3 470,931 231,603 229,348 0 0 0 0 9,980 Water Treatment Equipment 2 973,163 488,283 484,880 0 0 0 0 0 Distribution Reservoirs & Standpipes 5 364,275 87,237 0 254,731 0 0 0 22,307 Trans. & Oistrib. Mains & Accessories 3 2,626,679 1,291,7% 1,279,217 0 0 0 0 55,666 Services 9 1,667,829 0 0 0 0 1,667,829 0 0 Meters and Meter Installations 8 1,020,091 0 0 0 1,020,091 0 0 0 Hydrants 7 273,666 0 0 0 0 0 0 273,666 Office Furniture and Equipment 14 83,330 22,791 17,566 1,483 7 19,965 20,345 1,173 Computer Equipment 12 90,241 0 0 0 0 0 88,061 2,180 Transportation Equipment 14 140,248 38,3S.9 29,565 2,495 11 33,602 34,242 1,974 Stores Equipment 14 10,297 2,81.6 2,171 183 2,467 2,514 145 Tools, Shop and Garage Equipment 14 108,875 29,778 22,951 1,937 9 26,086 26,582 1,532 Laboratory Equipment 2 5,747 2,883 2,863 0 0 0 0 0 Power Operated Equipment 14 77,063 21,077 16,245 1,371 6 18,464 18,815 1,085 Communications Equipment 14 320,581 87,682 67,579 5,704 26 76,809 78,270 4,512 Miscellaneous Equipment 14 21,107 5,773 4,449 376 2 5,057 5,153 297 Other Tangible Property 14 211,717 57,906 44,630 3,767 17 so,n6 51,691 2,980 TOTAL DEPRECIATION EXPENSES 10,647,090 3,406,644 3,208,651 311,595 1,020,182 1,942,863 368,328 388,826 Exhibit 14-3 Case No. VEO-W-22-02 A. Bui Page 19 of 40 Exhibit 14-3 (continued) COST OF SERVICE FOR THE TEST YEAR ENDED MARCH 31, 2023 ALLOCATED TO COST FUNCTIONS Factor Cost of Billing & Fire Account Ref Service Base Max Dav Max Hour Meters Services Meters Services (1) (2) (3) (4) (5) (6) (7) (8) (9) (10) Amortization of Utility Plant Acquisition 17 282,SSS 99,125 94,266 9,689 12,509 53,601 (317) 13,712 TOTAL AMORTIZATION 282,SSS 99,125 94,266 9,689 12,509 53,601 (317) 13,712 TAXES OTHER THAN INCOME Real Estate 18 2,145,032 753,307 711,407 73,031 93,1n 407,235 3,l n 103,106 Payroll Taxes 16 898,783 205,333 184,874 4,519 76 236,417 256,901 10,663 TOTAL TAXES, OTHER THAN INCOME 3,043,815 958,641 896,281 77,551 93,848 643,653 260,073 113,769 INCOME TAXES 18 5,567,006 1,955,060 1,846,317 189,538 243,368 1,056,899 8,233 267,590 UTILITY INCOME AVAILABLE FOR RETURN 18 $21,801,395 7,656,367 7,230,510 742,266 953,071 4,139,006 32,243 1,047,932 TOTAL COST OF SERVICE s 63,825,086 s 22,696,714 S 17,296,607 s 1,668,800 s 2,324,498 S 12,408,559 s 5,329,842 s 2,100,066 LESS: OTHER WATER RESOURCES Miscellaneous Service Revenue 19 35,620 12,667 9,653 931 1,297 6,925 2,975 1,l n TOTAL OTHER WATER REVENUES 35,620 12,667 9,653 931 1,297 6,925 2,975 1,l n TOTAL COST OF SERVICE RELATED TO SALES OF WATER s 63,789,466 s 22,684,047 S 17,286,954 s 1,667,869 s 2,323,201 S 12,401,634 s 5,326,868 s 2,098,894 Reallocation of Public Fire 20 s s s s 1,599,750 s s s (1,599,750) TOTAL s 63,789,466 s 22,684,047 S 17,286,954 s 1,667,869 s 3,922,951 S 12,401,634 s 5,326,868 s 499,143 Exhibit 14-3 Case No. VEO-W-22-02 A. Bui Page 20 of 40 Exhibit 14-3 (continued) COST OF SERVICE FOR THE TEST YEAR ENDED MARCH 31, 2023 ALLOCATED TO COST FUNCTIONS Factor Cost of Billing & Fire Account Ref Service Base Max Dav Max Hour Meters Services Meters Services (1) (2) (3) (4) (S) (6) (7) (8) (9) (10) RATE BASE Organization 17 104,S30 36,667 34,869 3,584 4,627 19,827 (117) s,on Franchise Rights 17 30,079 10,SSl 10,034 1,031 1,331. S,70S (34) 1,460 Land & Land Rights • Source of Supply 2 2,930,331 1,470,290 1,460,041 0 0 0 0 0 Water Rights • Source of Supply 2 8,666,083 4,348,197 4,317,886 0 0 0 0 0 Land & Land Rights • Water Treatment 2 889,034 446,on 442,962 0 0 0 0 0 Land & Land Rights • Trans. & Oistrib. 6 9n,360 337,790 206,71S 370,639 0 0 0 S7,216 Land & Land Rights • General Plant 14 213,383 58,362 44,982 3,797 17 S1,12S S2,098 3,003 Structures and Improvements • Source of Supply 2 6,701,62S 3,362,533 3,339,093 0 0 0 0 0 Structures and Improvements • Water Treatment 2 9,36S,98S 4,699,3n 4,666,613 0 0 0 0 0 Structures and Improvements • Trans. & Oistrib. 6 2,S88,SSO 899,242 SS0,302 986,691 0 0 0 1S2,31S Structures and Improvements• General Plant 14 4,705,847 1,287,090 992,001 83,731 37S 1,127,483 1,148,939 66,227 Collecting & Impounding Reservoirs • Source of Supply 1 42,358 42,358 0 0 0 0 0 0 Lake, River & Other Intakes 2 916,SOO 4S9,8S3 4S6,647 0 0 0 0 0 Wells & Springs 2 4,767,393 2,392,034 2,37S,3S9 0 0 0 0 0 Infiltration Galleries & Tunnels 2 (13,853) (6,951) (6,902) 0 0 0 0 0 Supply Mains 2 2,108,262 1,057,818 1,050,444 0 0 0 0 0 Power Generation Equipment 3 1,690,822 831,S43 823,446 0 0 0 0 3S,833 Power Electric/Diesel Pumping Equipment • Source of Supply 2 6,261,1n 3,144,848 3,122,92S 0 0 0 0 0 Power Pumping Equipment • Water Treatment 2 2,S88,0S1 1,298,552 1,289,499 0 0 0 0 0 Power Pumping Equipment • Trans. & Oistrib. 3 6,705,307 3,297,658 3,26S,S46 0 0 0 0 142,102 Water Treatment Equipment 2 13,826,487 6,937,424 6,889,063 0 0 0 0 0 Distribution Reservoirs & Standpipes 16,648,471 3,986,978 0 11,641,974 0 0 0 1,019,519 Trans. & Oistrib. Mains & Accessories 3 188,104,746 92,509,589 91,608,741 0 0 0 0 3,986,416 Services 9 69,649,980 0 0 0 0 69,649,980 0 0 Meters and Meter Installations 8 17,1SO,S01 0 0 0 17,1SO,S01 0 0 0 Hydrants 7 13,289,464 0 0 0 0 0 0 13,289,464 Exhibit 14-3 Case No. VEO-W-22-02 A. Bui Page 21 of 40 Exhibit 14-3 (continued) COST OF SERVICE FOR THE TEST YEAR ENDED MARCH 31, 2023 ALLOCATED TO COST FUNCTIONS Factor Cost of Billing & Fire Account Ref Service Base Max Dav Max Hour Meters Services Meters Services (1) (2) (3) (4) (5) (6) (7) (8) (9) (10) Office Furniture and Equipment 14 n1,021 198,847 153,257 12,936 58 174,189 177,503 10,232 Computer Equipment 12 (4,458,247) 0 0 0 0 0 (4,350,543) (107,704) Transportation Equipment 14 1,312,956 359,105 276,774 23,361 105 314,574 320,560 18,478 Stores Equipment 14 203,117 55,554 42,817 3,614 16 48,665 49,591 2,859 Tools, Shop and Garage Equipment 14 1,336,961 365,670 281,834 23,789 107 320,325 326,421 18,816 Laboratory Equipment 2 20,n2 10,397 10,325 0 0 0 0 0 Power Operated Equipment 14 625,068 170,962 131,766 11,122 50 149,761 152,611 8,797 Communications Equipment 14 3,927,823 1,074,294 827,992 69,888 313 941,075 958,983 55,278 Miscellaneous Equipment 14 243,187 66,514 51,264 4,327 19 58,266 59,374 3,422 Other Tangible Property 14 2,744,882 750,749 578,626 48,840 219 657,652 670,167 38,630 TOTAL UTILITY PLANT IN SERVICE 387,593,558 135,959,962 129,294,921 13,289,323 17,157,738 73,518,627 (434,447) 18,807,434 OTHER RATE BASE ITEMS Utility Plant Acquisition Adjustment 17 10,771,089 3,778,280 3,593,060 369,306 476,808 2,043,057 (12,073) 522,652 Customer Advances for Construction 17 (3,797,814) (1,332,196) (1,266,889) (130,215) (168,119) in o,368) 4,257 (184,284) Contributions in Aid of Construction-Net 17 (112,913,n O) (39,607,844) (37,666,185) (3,871,444) (4,998,391) (21,417,440) 126,563 (5,478,980) Deferred Charges Included in Rate Base 17 4,933,851 1,730,695 1,645,853 169,166 218,408 935,851 (5,530) 239,408 Working Capital Allowance 15 3,552,571 1,362,185 635,292 53,433 240 n2,501 736,529 42,384 Deferred Income Taxes 17 (5,307,577) (1,861,790) (1,770,521) (181,980) (234,952) (1,006,740) 5,949 (257,543) TOTAL OTHER RATE BASE ELEMENTS (102,761,600) (35,930,670) (34,829,390) (3,591,734) (4,706,006) (19,443,132) 855,695 (5,116,362) TOTAL ORIGINAL COST MEASURE OF VALUE s 284,831,959 s 100,029,292 S 94,465,531 s 9,697,589 S 12,451,732 S 54,075,495 s 421,248 s 13,691,on Exhibit 14-3 Case No. VEO-W-22-02 A. Bui Page 22 of 40 Exhibit 14-4 BASIS FOR ALLOCATING DEMAND RELATED COSTS OF FIRE SERVICE TO PRIVATE AND PUBLIC FIRE PROTECTION CUSTOMER CLASSIFICATIONS Number of Relative Flow Equiva lent Hydrants or Capacity Hydrant Fire Equivalent Description Factor Ratio Connections Hydrant (1) (2) (3) (4) (5) PRIVATE FIRE PROTECTION Fire lines 3" 18.0 0.26 903 235 4" 38.3 0.56 688 385 6" 111.3 1.62 584 946 8" 237.2 3.44 186 640 10'' 426.6 6.19 11 68 12" 689.0 10.00 6 60 Private Hydrants 68.9 1.00 160 160 Total Private Fire Protection 2,538 2,494 PUBLIC FIRE PROTECTION Public Hydrants 68.9 1.00 10,050 10,050 Total Public Fire Protection 10,050 10,050 TOTAL FIRE PROTECTION 12,588 12,544 • Demand Factors based on nominal size of connection raised to the 2.63 power. Source: AWWA M l M anual, Chapter IV.8. Allocation Factor (6) 0.1988 0.80 12 1.0000 Exhibit 14-4 Case No. VEO-W-22-02 A. Bui Page 23 of 40 Exhibit 14-5A CALCULATION OF B1-MONTHL Y CUSTOMER COST FOR 5/8-INCH METER Cost per Cost per 5/8-inch Cost of Total 5/8-inch Meter Cost Function Service Un its Meter Bi-Monthly (1) (2) (3) (4) (1) M eters 2,323,201 201,378 5/8" Meter Equ iv. 11.54 1.92 Services 12,401,634 123,059 3/4" Service Equiv. 100.78 16.80 Billing and Collections 5,326,868 102,518 Customers 51.96 8.66 Subtota l Customer Costs $ 20,05 1,702 27.38 Unrecovered Public Fire 1,599,750 201,378 5/8"-inch Equiv. 7.94 1.32 Total Customer Costs and Public Fire $ 2 1,651,453 $ 28.70 Exhibit 14-5A Case No. VEO-W-22-02 A. Bui Page 24 of 40 Cost Function (1) Base Max Day Max Hour Tota l Volume Costs W inter Volume Summer Volume -Tier 1 Summer Volume -Tier 2 Exhibit 14-5B CALCULATION OF VOLUME UNIT CHARGE Cost of Total Tier Service Units Ratio (2) (3) (4) 22,696,714 17,296,607 1,668,800 $41,662,121 18,803,987 6,723,221 1.00 562,325 1.00 11,518,441 1.25 Cost per Tier Cost per CCF Ratio CCF (5) (6) (7) $2.2156 $2.2156 $1.9214 1.00 $1.6961 $1.9214 1.00 $1.6961 $2.4017 1.50 $2.5442 Exhibit 14-5B Case No. VEO-W-22-02 A. Bui Page 25 of 40 Cost Function (1) Private Fire Service Total Private Costs Exhibit 14-SC CALCULATION OF B1-MONTHL Y CUSTOMER COST FOR FIRE SERVICE Cost of Tota l Service Un its (2) (3) 499,143 2,494 Equiv. Hydrants $499,143 Cost per Cost per Equ iv. Equiv. Hydrants Hydrants Bi-Monthly (4) (5) 200.14 33.36 $33.36 Exhibit 14-5C Case No. VEO-W-22-02 A. Bui Page 26 of 40 EXHIBIT 14-F FACTORS FOR ALLOCATING COST OF SERVICE TO CUSTOMER CLASSIFICATIONS Exhibit 14-F Case No. VEO-W-22-02 A. Bui Page 27 of 40 FACTOR I, ALLOCATION OF COSTS THAT VARY VITH THE AMOUNT OF YATER CONSUMED Factor are based on the pro for ma test gear average daily consumption for each customer classification. Customer Classification (I) Residential Commercial Public Authority Private Fire Service Public Fire Service Total Average Daily Ccnsumption :CFlda9 (2) 33,134 18,209 175 51.518 Allocation Factor (3) 0.6432 0.3535 0.0034 0.0000 0.0000 1.0000 Exhibit 14-F Case No. VEO-W-22-02 A. Bui Page 28 of 40 FACTOR 2, ALLOCATION OF COSTS ASSOCIATED VITH FACILITIES SERVING BASE AND MAXIMUM DAY EXTRA CAPACITY FUNCTION Factors are based on the weighting of the factors for average daily consumption and the factors derived from maximum day eicua capacity demand for each customer class, as follows: Customer Classification (1) Residential Commercial Public Authority Private Fire Service Public Fire Service Total Average Oailg Consumption Allocation Weighted Factor Factor (2) (3) 0.6432 0.3227 0.3535 0.1773 0.0034 0.0017 0.0000 0.0000 0.0000 0.0000 1.0000 0.5017 Maximum Dag Exua Capacitg Allocation Weighted Factor Factor (4) (5) 0.6625 0.3357 0.0019 1.0000 0.3301 0.1672 0.0009 0.4983 Th!> derivation of the maximum day eicua capacity factors in Column 4 and the basis for Column 3 and 5 weightings are presented here: Customer Classification (1) Residential Commercial Public Authority Private Fire Service Public Fire Service Total Average Daily Consumption CCFldag (2) 33,134 18,209 175 51.518 Factor (3) 2.05 1.89 1.11 Total MaicOay CCFlda1 Eicua Caeacih (4) (5) 67,924 34,791 34,416 16,206 194 19 0 0 0 0 102,534 51.016 Tl'e weighting of the factors is based on the maximum day ratio of 1.99 for the system based on review of10-years of maximum day ratios. Average Day Maximum Day Extra Capacity" Maximum Day Rauo 1.00 0.99 1.99 "Ratio of maximum day to average minus 1.0. Weight 0.5017 0.4983 1.0000 Allocation Factor (6) 0.6528 0.3446 0.0026 0.0000 0.0000 1.0000 Allocation Factor (6) 0.6625 0.3357 0.0019 0.0000 0.0000 1.0000 Exhibit 14-F Case No. VEO-W-22-02 A. Bui Page 29 of 40 FACTOR 3, ALLOCATION OF COSTS ASSOCIATED VITH FACILITIES SERVING BASE. MAXIMUM DAY EXTRA CAPACITY AND FIRE PROTECTION FUNCTIONS The weighting of the factors is based on the potential demand of general and fire protection ser1Jice. The bases for the potential demand of general service are the maximum day ratio of 1.99 and the average daily system send out for test year of 51,518 CCFlday. The system demand for fire protection is consists of three concurrent fires with demands of 4,500 gpm for 4 hours. 4,000 gpm for 4 hours and 1,500 gpm for 2 hours. Maximum Day Total Maic Day Ratio ccfldag Weight Average Day 1.00 51.518 0.4918 Maximum Day Eicua Capacity 0.99 51,016 0.4870 Subtotal 1.99 102,534 0.9788 Fire Protection 2,220 0.0212 Total 104,754 1.0000 The public and private fire protection allocation factors in Column 6 on are based on the relative potential demands. Average Dail! Consumetion Maximum Da1 Exua Caeacit1 Fire Protection Allocation Weighted Allocation Weighted Allocation Weighted Customer Classification Factor Factor Factor Factor Factor Factor (1) (2) (3) (4) (5) (6) (7) Residential 0.6432 0.3163 0.6625 0.3226 Commercial 0.3535 0.1738 0.3357 0.1635 Public Authority 0.0034 0.0017 0.0019 0.0009 Private Fire Service 0.0000 0.0000 0.0000 0.0000 0.1988 0.0042 Public Fire Service 0.0000 0.0000 0.0000 0.0000 0.8012 0.0170 Total 1.0000 0.4918 1.0000 0.4870 1.0000 0.0212 Allocation Factor (8) 0.6389 0.3373 0.0026 0.0042 0.0170 1.0000 Exhibit 14-F Case No. VEO-W-22-02 A. Bui Page 30 of 40 FACTOR 4, ALLOCATION OF COSTS ASSOCIATED VITH FACILITIES SERVING BASE AND MAXIMUM HOUR EXTRA CAPACITY FUNCTIONS The weighting of the factors is based on the potential demand of general and fire protection service. The bases for the potential demand of general service are the maximum day ratio of 3.92 and the average daily system send out for test year of 51,518 CCFlday. The system demand for fire protection consists of three concuuent fires with demands of 4,500 gpm, 4,000 gpm, and 1,500 gpm. Maximum Hour Total Flow Ratio ccfldag Weight Average Day 1.00 51.518 0.2355 Maximum Hour Eictra Capacity" 2.92 147,971 0.6765 Subtotal 3.92 199,488 0.9120 Fire Protection 19,251 0.0880 Total 218,739 1.0000 "Ratio of maximum hour to average minus 1.0. The maximum hour elCtra capacity factors in Column 5 are determined as follows: Average Daily Maximum Hour Extra Caeacitg Consumption Rate of Flow Extra Capacity Allocation Customer Classification CCFIDai Factor CCFIDai Flow Factor (1) (2) (3) (4) (5) (6) Residential 33,134 4.80 159,042 91,118 0.7993 Commercial 18,209 2.15 39,150 4,734 0.1967 Public Authority 175 4.55 794 600 0.0040 Total 51.518 198,987 96,453 1.0000 Exhibit 14-F Case No. VEO-W-22-02 A. Bui Page 31 of 40 FACTOR 4, ALLOCATION OF COSTS ASSOCIATED VITH FACILITIES SERVING BASE ANO MAXIMUM HOUR EXTRA CAPACITY FUNCTIONS (CONTINUED) The public and private protection factors in Column 5 are based on the relative potential demands. Average Dail! Consumetion Maximum Hour Extra Caeacit1 Fire Protection Allocation Weighted Allocation Weighted Allocation Weighted Customer Classification Factor Faotor Factor Factor Factor Factor (1) (2) (3) (4) (5) (6) (7) Residential 0.6432 0.1515 0.7993 0.5407 Commercial 0.3535 0.0832 0.1967 0.1331 Public Authority 0.0034 0.0008 0.0040 0.0027 Private Fire Service 0.0000 0.0000 0.0000 0.0000 0.1988 0.0175 Public Fire Service 0.0000 0.0000 0.0000 0.0000 0.8012 0.0705 Total 1.0000 0.2355 1.0000 0.6765 1.0000 0.0880 Allocation Factor (8) 0.6922 0.2163 0.0035 0.0175 0.0705 1.0000 Exhibit 14-F Case No. VEO-W-22-02 A. Bui Page 32 of 40 FACTOR 5, ALLOCATION OF COSTS ASSOCIATED VITH STORAGE FACILITIES The weighting of the factors is based on the r~tio of the capacity required for 2, 4-hour demands and a 2-hour demand of fire flow, as related to tctal storage capacity. Fire Protection \./eight: General Service \./eight: 1.0000 · 0.0612 The weighting of the average hourly consum~ion and maximum hour demand for general services is based on the maximum hour ratio, as follows: Maximum Hour =iatio Averaqe Oaq 1.00 Maximum Hour Eicua Capacity• ___ __,2~.9~2~ 3.92 "Ratio of maximum day to average minus 1.0. Percent 25.5X 74.5¾ 100.0X Ao.er age Dail! Consumetion Albcation Weighted Customer Classification Factor Factor (1) (2) (3) Residential 0.6432 0.1540 Commercial 0.3535 0.0846 Public Authority 0.0034 0.0008 Private Fire Service 0.0000 0.0000 Public Fire Service 0.0000 0.0000 Total 1.0000 0.2395 Weight 0.2395 0.6993 0.9388 Maximum Hour Exu a Caeacit1 Allocation Weighted Factor Factor (4) (5) 0.7993 0.5589 0.1967 0.1376 0.0040 0.0028 0.0000 0.0000 0.0000 0.0000 1.0000 0.6993 The public and private fire protection allocation factors in Column 6 are based on the relative potential demands. 0.0612 0.9,88 Fire Protection Allocation Weighted Allocation Factor Factor Factor (6) (7) (8) 0.7129 0.2222 0.0036 0.1988 0.0122 0.0122 0.8012 0.0481 0.0491 1.0000 0.0612 1.0000 Exhibit 14-F Case No. VEO-W-22-02 A. Bui Page 33 of 40 FACTOR 6, ALLOCATION OF COSTS ASSOCIATED VITH TRANSMISSION AND DISTRIBUTION MAINS Factors are based on the weighting of the maximum daily consumption with fire, Factor 3, and the maximum hour. Maximum Daill Consumetion wlFire Maximum Hou,11 Consumetion Allocation Weighted Allocation Weighted Customer Classification Factor Factor Factor Factor (1) (2) (3) (4) (5) Residential 0.6389 0.2789 0.6922 0.3900 Commercial 0.3373 0.1472 0.2163 0.1219 Public Authority 0.0026 0.0011 0.0035 0.0020 Private Fire Service 0.0042 0.0018 0.0175 0.0099 Public Fire Service 0.0170 0.0074 0.0705 0.0397 Total 1.0000 0.4365 1.0000 0.5635 The weighted of the factors is based on the total footage of mains, designated as either transmission mains or distribution mains, as follows: Total In-Feet of Mains Weight Transmission Mains 29,910,220 0.4365 Distribution Mains 38,608,964 0.5635 Total 68,519,184 1.0000 FACTOR 7, ALLOCATION OF COSTS ASSOCIATED VITH FIRE HYDRANTS Costs are allocated between Private and Public Fire Hydrants Customer Classification (1) Private Fire Service Public Fire Service Allocation Factor (2) 0.1988 0.8012 Allocation Factor (6) 0.6689 0.2691 0.0031 0.0117 0.0471 1.0000 Exhibit 14-F Case No. VEO-W-22-02 A. Bui Page 34 of 40 FACTOR 8: ALLOCATION OF COSTS ASSOCIATED V ITH METERS Factors are based on the relative cost of met HS bJ sire and customec-classification, as developed below. 5/S"Me<H Alocadon Customer Classification E~..-.:S F ac<ot (1) (2) (3) Residential 131.574 o.m< Commercial 6$,143 1).3434 Public Authorltg 661 o.0033 20l378 lOOOO R<ddffldll Commt,0111 Public Autho1iti en--ol Numbtr of Numbtrof MtttrSizt E9!!!::WW MtttfS V!!9hti29 Mt lt ll \./tlS1hUn9 Mt ttll \./ tl51htin51 (1) (2) (3) (4) (5) (6) (7) (8) 518" lO 2$.329 2$,32$ 639 639 6 6 314" l5 57.227 85,841 2,121 3,181 13 19 1" l9 9.224 17,525 2,576 4,894 26 49 1-112" 6.0 2$1 1.506 2,182 13,090 22 130 2" 1l9 115 1.373 2,439 29.020 38 457 3" 5U 0 260 13,288 0 4" 94.1 0 45 4,216 0 6" 13<.0 0 6 815 0 8" 180.0 0 0 0 Total 92,14$ 131,574 10,267 69,143 105 661 Exhibit 14-F Case No. VEO-W-22-02 A. Bui Page 35 of 40 FACTOR 9, ALLOCATION OF COSTS ASSOCIATED VITH SERVICES Factors are based on the relative cost of servic~s by size and customer classification, as developed below. 314" Service Allocation Customer Classification Eguiv.alents Factor (1) (2) (3) Residential 101,055 0.8212 Commercial 21,767 0.1769 Public Authority 237 0.0019 123,059 1.0000 Residential Commercial Public Authorit1 Total 314" Service Number of Number of Number of Number of Meter Size Eguiv.alents Meters Weighting Meters Weighting Meters Weighting Meters Weighting (1) (2) (3) (4) (5) (6) (7) (8) (9) (10) 518" 1.0 25,329 25,329 639 639 6 6 25,974 25,974 314" 1.0 57,227 57,227 2,121 2,121 13 13 59,360 59,360 1" 1.9 9,224 17,525 2,576 4,894 26 49 11,825 22,468 1-112" 2.5 251 628 2,182 5,454 22 54 2,454 6,136 2" 3.0 115 346 2,439 7,316 38 115 2,592 7,777 3" 3.5 0 260 910 0 260 910 4" 8.5 0 45 381 0 45 381 6" 8.5 0 6 52 0 6 52 8" 8.5 0 0 0 0 0 Total 92,146 101,055 10,267 21.767 105 237 102,518 123,059 Exhibit 14-F Case No. VEO-W-22-02 A. Bui Page 36 of 40 FACTOR 10, ALLOCATION OF TRANSMISSION AND DISTRIBUTION OPERATION SUPERVISION AND ENGINEERING AND MISCELLANEOUS EXPENSES Factors are based on transmission and distribution operation expenses other than those being allocated, as follows: Transmission & Distribution Operating Allocation Customer Classification Exeenses Factor (1) (2) (3) Residential 332,817 0.6470 Commercial 176,419 0.3429 Public Authority 1,731 0.0034 Private Fire Service 689 0.0013 Public Firo Soruieo 2,779 0.0054 $514,434 1.0000 FACTOR 11, ALLOCATION OF TRANSMISSION AND DISTRIBUTION OPERATION SUPERVISION AND ENGINEERING. STRUCTURES AND IMPROVEMENTS. AND OTHER EXPENSES Factors are based on transmission and distribution maintenance expenses other than those being allocated, as follows: Transmission & Distribution Maintenance Allocation Customer Classification Exeenses Factor (1) (2) (3) Residential 2,185,190 0.8035 Commercial 488,599 0.1797 Public Authority 5,569 0.0020 Private Fire Service 7,976 0.0029 Public Fire Service 32,140 0.0118 $2,719,473 1.0000 Exhibit 14-F Case No. VEO-W-22-02 A. Bui Page 37 of 40 FACTOR 12, ALLOCATION OF BILLING AND COLLECTION COSTS Factors are based on the total number of customers. Total Allocation Customer Classification Customers Factor (1) (2) (3) Residential 92,146 0.8771 Commercial 10,267 0.0977 Public Authority 106 0.0010 Private Fire Service 2,538 0.0242 Public Fire Service 0 0.0000 105,057 1.0000 FACTOR 13, ALLOCATION OF METER READING COSTS Factors are based on the total equivalent meters. Total Equiv. Allocation Customer Classification Meters Factor (1) (2) (3) Residential 101.055 0.8212 Commercial 21,767 0.1769 Public Authority 237 0.0019 123,059 1.0000 FACTOR 14, ALLOCATION OF ADMINISTRA TIYE AND GENERAL EXPENSES Factors are based on the allocation of all other operation and maintenance expenses excluding G&A, purchased water, power and chemicals. Operation& Maintenance Allocation Customer Classification Exeense Factor (1) (2) (3) Residential 7,808,338 0.7419 Commercial 2,545,235 0.2418 Public Authority 22,712 0.0022 Private Fire Service 69,388 0.0066 Public Fire Service 78,726 0.0075 $10,524,398 1.0000 Exhibit 14-F Case No. VEO-W-22-02 A. Bui Page 38 of 40 FACTOR 15, ALLOCATION OF CASH VORKING CAPITAL Factors are based on the allocation of all other operation and maintenance expenses including purchased water, power and chemicals. Operation& Maintenance Allocation Customer Classification Exeense Factor (1) (2) (3) Residential 16,345,611 0.7270 Commercial 5,816,650 0.2587 Public Authority 52,698 0.0023 Private Fire Service 125,792 0.0056 Public Fire Service 142,444 0.0063 $22,483,195 1.0000 FACTOR 16, ALLOCATION OF LABOR RELATED TAXES AND BENEFITS Factors are based on the allocation of direct labor expense. Direct Labor Allocation Customer Classification E112enst Faotor (1) (2) (3) Residential 5,753,488 0.7557 Commercial 1,754,042 0.2304 Public Authority 15,512 0.0020 Private Fire Service 52,407 0.0069 Public Fire Service 37,917 0.0050 $7,613,366 1.0000 Exhibit 14-F Case No. VEO-W-22-02 A. Bui Page 39 of 40 FACTOR 17, ALLOCATION OF ORGANIZATION. FRANCHISES AND CONSENTS. MISCELLANEOUS INTANGIBLE PLANT AND OTHER RATE BASE ELEMENTS Factors are based on the allocation of the original cost less depreciation other than those items being allocation, as follows: Original Costless Allocation Customer Classification Deereciation Factor (1) (2) (3) Residential 254.755,347 0.6575 Commercial 112,946,623 0.2915 Public Authority 956,077 0.0025 Private Fire Service 3,712,581 0.0096 Public Fire Service 15,088,321 0.0389 $387,458,950 1.0000 FACTOR 18, ALLOCATION OF INCOME TAXES AND INCOME AVAILABLE FOR RETURN Factors are based on the allocation of the original cost measure of value rate base as hown below. Original Cost Measure Allocation Customer Classification of Value Factor (1) (2) (3) Residential 187,524,758 0.6584 Commercial 82,913,729 0.2911 Public Authority 702.400 0.0025 Private Fire Service 2,715,058 0.0095 Public Fire Service 10,976,013 0.0385 $284,831.959 1.0000 FACTOR 19, ALLOCATION OF REGULATORY COMMISSION EXPENSES. ASSESSMENTS. AND OTHER VATER REVENUE Factors are based on the allocation of the total cost of service, excluding those items being allocated. Total Cost Allocation Customer Classification of Service Factor (1) (2) (3) Residential 43,795,383 0.6862 Commercial 17,775,251 0.2785 Public Authority 154,386 0.0024 Private Fire Service 499,422 0.0078 Public Fire Service 1,600,643 0.0251 63,825,086 1.0000 Exhibit 14-F Case No. VEO-W-22-02 A. Bui Page 40 of 40 FACTOR 20, ALLOCATION OF PUBLIC FIRE Factors are based on the relative cost of meters by size and customer classification 518" Dollar Allocation Customer Classification Eguivalents Factor llJ l2J l>J Residential 131,574 0.6534 Commercial 69,143 0.3434 Public Authority 661 0.0033 Private Fire Service 0 0.0000 Total 201.378 1.0000 SUMMARY OF AVERAGE DAILY SEND OUT AND MAXIMUM DAILY USAGES FOR THE YEARS OF 2012-2021 Average Daily Send Out Maximum Dail! Use Year MGD MGD Ratio to Average (1) (2) 2012 40.495 84.000 2.07 2013 42.126 82.000 1.95 20H .U.G62 9'1.000 2.02 2015 43.128 85.467 1.98 2016 42.927 81.662 1.90 2017 41.637 83.729 2.01 2018 43.512 86.680 1.99 2019 41.103 82.539 2.01 2020 41.699 83.528 2.00 2021 44.376 88.506 1.99 Average 1.99 Source: A.1 Accounts and water sales volume by custoner class for the past 10 years.xlsx and Black. & Veatch Customer Class Load Study Exhibit 14-F