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Redmond Town Center, 7525 166 th Avenue NE, Suite D-215,

2008 BCWWA Annual Conference Whistler, British Columbia. Designing Water Rates to Reflect Cost of Service and Support Water Sustainability. Presented by: Karyn Johnson, Principal – FCS GROUP April 29, 2008. Redmond Town Center, 7525 166 th Avenue NE, Suite D-215,

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Redmond Town Center, 7525 166 th Avenue NE, Suite D-215,

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  1. 2008 BCWWA Annual Conference Whistler, British Columbia Designing Water Rates to Reflect Cost of Service and Support Water Sustainability Presented by: Karyn Johnson, Principal – FCS GROUP April 29, 2008 Redmond Town Center, 7525 166th Avenue NE, Suite D-215, Redmond, WA 98052; T: (425) 867-1802 F: (425) 867-1937 www.fcsgroup.com

  2. What is a Cost of Service Rate Analysis? Revenue Requirement “Defining Overall Needs” Cost of Service “Equity Evaluation” Rate Design “Collecting the Target Revenues”

  3. Revenue Requirement “Defining Overall Needs”

  4. Summary of Revenue Requirement • Multi-year financial plan that determines the amount of revenue necessary to recover the total costs incurred to provide service • Cash reserves • System reinvestment funding • Operating & maintenance costs • Capital related costs • Used to allocate costs to users of the system • Forms the basis for rate design …With revenue needs defined… What’s Next?

  5. Cost of Service “Equity Evaluation”

  6. Why is Cost of Service Important? • Pressure to ensure that customers are paying their fair share of system costs • Regulatory requirements (Interior Health’s mandate for safe and clean drinking water) • Sustaining adequate water supply • System replacement needs • Inflationary pressures • Provides a rational basis for distributing the full costs of utility service to each class of customer • An equitable distribution of cost shares that considers utility-specific data leads to defensible rate structures

  7. What Level of COSA is Right for You? Cost of Service Elements Define Utility Functions Service Components Develop Unit Costs Per Function Fixed / Variable Charges Classify Plant and Expenses / Allocate to Function System Design Criteria / Industry Standards Allocate Costs to Customers “Cost Shares” Define Customer Classes Distinctions in Demand and Service Levels

  8. Analytical Steps of a COSAStep 1: Functionalize • Define Functions of Service Water System Functions • Customer • Meters & Services • Base Demand • Peak Demand • Fire Protection Sewer System Functions • Customer • Contributed Flow • Inflow & Infiltration • Strength (BOD, SS, etc.)

  9. Analytical Steps of a COSAStep 2: Classify • Categorize assets / expenses by major cost components • Assign cost components to functions based on cost causation • Why is the infrastructure needed? • Why did you incur the expense? • How did you determine the size? • How is asset used/operated? Water • Supply/Treatment • Transmission/Distribution • Storage • Hydrants • General Sewer • Collection • Conveyance • Pumping • Treatment • General

  10. Allocation of Water System Components • How is infrastructure assigned to functions? • Other categories based on the unique design of each system • Costs can be directly assigned if benefit only one customer or a group of customers

  11. Operating expenses are generally allocated based on a detailed review of individual line items Proportional to individual plant components Proportional to total plant Directly assigned to one or more functional components Example Classification of Plant in Service

  12. Example: Summary of System Cost Allocation AverageDemand 40.4% Peak Demand 39.7% Fire Protection 6.8% Customer 13.1%

  13. How is this System Allocation Used? • Not all customers use the system in the same manner - system costs should not be recovered uniformly from all customers • Provides a basis for differentiating customer classes • Represents a “snapshot” of cost breakdowns and cost relationships • Used for allocation of costs to groups of customers having similar usage characteristics or facility requirements

  14. What Makes a Customer Class Distinct? • Distinct service requirements • Usage levels • Usage patterns • Seasonality of use • Strength of wastewater • Location • Type of user

  15. What are Common Customer Classes? • Single Family Multi-Family • Residential Government Commercial Wholesale Industrial Irrigation

  16. Commercial/Industrial • Single family residential • Parks & Irrigation • Multi-family residential Typical Customer Class Distinctions • Can exhibit high usage per account • Relatively constant year-around use • Highest fire flow requirement • Relatively low usage per dwelling unit • High peaking (summer outdoor usage) • Lowest fire flow requirement • Majority of, if not all, usage in peak period • No fire flow requirement • Lower usage per unit than SFR • Relatively constant year-around use • Fire flow requirement falls between SFR & commercial

  17. Analytical Steps of a COSAStep 3: Allocate to Customers • Costs are distributed based on relative demands (water):

  18. Defining Customer Usage Characteristics • Types of customers • Distinguishing characteristics • Levels of demand for each service component

  19. Customer Class Allocation Example • Single family customer allocation example • Pro rata share of costs in proportion to demand levels • Unit costs for rate design

  20. Rate Design “Collecting the Target Revenue”

  21. Goals of Rate Design • Target revenue levels • Cost-based • Policy objectives • Conservation • Risks (revenue stability) • Customer impacts/affordability • Administrative practicality

  22. Basic Rate Features • Flat charges • Fixed charge plus volume charges • Uniform volume charges • Class-specific volume charges • Inverted (tiered) volume charges (single family residential) • Seasonal charges • Other rate design features • Wholesale rates • Large commercial/industrial rates • Interruptible service rates • Strength charges • Outside city (district) rates

  23. Conservation Rate Structures  Seasonal Rate $ per unit of water in winter, higher $ per unit of water in summer  Uniform Single Block $ per unit for all water use Appropriate for classes exhibiting relatively constant usage, demand patterns (multi-family residential; commercial/industrial) Reflects peak capacity costs; encourages conservation; appropriate for multi-family and commercial customers  Increasing Block Rate $ per unit of water that increases above each threshold of usage (most commonly 3 blocks, can be any number of blocks) Reflects peak capacity costs; encourages conservation; appropriate for single family residences

  24. Other Rate Design Features • Wholesale rates • Reflect limited service commitment • Some costs may not be applicable to wholesale service • Different, typically higher, cost of service basis • Includes a return on utility investment • May include “non-cash” costs of service • May include charges for unique services, facilities • Usually lower than retail rates! • Large/industrial customer rates • Large customer with unique usage requirements • Often “tailored” to directly reflect service costs • May include capacity (take or pay) features • Often based on “bulk” statistics (million gallons, pounds of pollutants)

  25. Other Rate Design Features • Interruptible service rates • Used as a peak shaving rate form • Customer is requested to interrupt service • Customer is provided lower overall rate as a “credit” for willingness to interrupt • Strength charges (sewer) • Outside city (district) rates • Commonly a rate multiplier ( 1.10-1.50) • Premised on “renter” rather than “owner” • Can be cost-based • Higher costs due to location • Benefits of utility government w/o costs • Different usage patterns • Higher infrastructure needs (lower density) • Risk & return

  26. Summary of Rate Design • Final adopted rate designs should: • Collect the desired level of revenues • Reflect the way costs are incurred (fixed vs. variable) • Reflect the balance of policy objectives against the desire for cost based rates

  27. What’s Right for You? • What do you wish to accomplish? • What information can you use? • What structures can your system handle? • Will the message be received? • Is it worth it?

  28. About the Speaker Karyn Johnson is a Principal and Firm shareholder for FCS GROUP with over 22 years of professional experience, including 15 years as a municipal rate consultant. She specializes in performing a variety of financial studies including fiscal policy development, capital financial plans, capital connection charges, revenue requirements, cost of service/rate design, and wholesale/regional water supply issues. Her consulting engagements number in excess of 200 and encompass water, wastewater, and stormwater programs. Karyn is known for her effective style of communicating technical information in public process, stakeholder participation, staff review, and industry training forums. She is a member of BCWWA and presented at the 2006 annual conference on “Transitioning to Universal Metering & Water Conservation Rates.” Karyn Johnson FCS GROUP 7525 166th Ave NE Suite D-215 Redmond, WA 98052 425-867-1802 x241 Email: karynj@fcsgroup.com

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