July 20091 Emerging Technology Solutions AMR/AMI Comes of Age.
City of Ann Arbor: A Model for AMR/AMI Implementation and Assigning Costs Where They Occur
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Transcript of City of Ann Arbor: A Model for AMR/AMI Implementation and Assigning Costs Where They Occur
© 2009 All rights reserved
Wendy Welser, ManagerCustomer Service Center, City of Ann Arbor
City of Ann Arbor: A Model for AMR/AMI Implementation and Assigning Costs Where They Occur
© 2009 All rights reserved2
City of Ann Arbor, Michigan
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Ann Arbor at a Glance
• Founded in 1824
• 27.7 square miles
• 114,000 residents
• 156 parks, 2,055.5 acres of parkland
• Ann Arbor is a recycling pioneer; recognized in 1998 by the US Environmental Protection Agency as one of the top 20 waste-reduction communities in North America for recovering over 50% of its residential solid waste through recycling and composting. The City expanded into single stream recycling operations in 2010 with the goal of increasing waste diversion to over 60%
• Home to 5 colleges and universities including the University of Michigan
• Honors and distinctions: Tree Town USA; CNN/Money Magazine’s Best Places to Live and Best Small Cities; Bicycling Magazine’s Top 21 Cities for Cyclists; Forbes Magazine’s Top College Sports Town and Most Livable City
• Home to top companies like: Google, Domino’s Pizza, Borders Group
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Pre-AMR/AMI System Challenges
• A single quarterly meter reading made it nearly impossible to assist customers with high bill complaints
• High rate of failure on technology (unreliable meter guns/supporting software; old meters not reliably reading high and especially low flow)
• 24.1% (6,453) of all meters were non-remote read sites
• Average of 350 remote devices repaired annually
• 12.4% (14,213) of all billed reads were “estimated”• Average of 900 billing adjustments made annually due to billing estimates
• Average of 1,250 meters were billed/adjusted on a single annual read• “Drive-by” readings; an average of 1,200 reads required a re-read because they failed the “Hi-Lo”
edit
• Average of almost 4,000 annual reads for “new party”
• Average annual cost associated with these issues (not including high bill complaints and technology failure) was $300,798 USD
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Why AMR/AMI?
• Improve revenues through increased metering accuracy (opportunity for meter replacement)
• Tamper detection capability• Zero read reports help to identify metering issues before a bill is generated
• Improve customer service; no need for intrusive meter reading visits and increased ability to provide more accurate and timely billing data
• Improve employee and customer safety
• Eliminate manual data entry errors
• Operational efficiencies: save on labor, fuel, and equipment • Read meters daily with wireless/solar AMR (vs manually collected readings once every quarter)
• Improve distribution system planning and asset management by providing accurate usage data to distribution system stakeholders
• Use meter data to assist the City in its desire to make rate adjustments based on a cost of service approach
• Possibilities for advanced leak detection applications
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Also a tab on the “My Property”information screen
Managing Meter Data for Our Customers: Water Consumption Data Link
Must use 12-digit account number to access meter data
511289-111558
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Customer Current vs. Prior Usage Comparisons
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Viewing Daily Water Usage Records for Highs, Lows and Anomalies
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5-Day Anomaly Identified
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Graph Usage Trends and Download Data
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Pre-MDM Cost of Service CalculationsCity of Ann Arbor Water System Allocations
(Carter & Burgess Report)
• The water services used for the Systems Allocations study included:• Volume of water used: all assets, functions, and tasks directly related to the
volume of water consumed• Maximum day demand: all assets, functions and tasks related to providing the
amount of water required to serve customers on the day with the maximum water demand
• Maximum hour demand: all assets, functions, and tasks related to providing the amount of water required to serve customers during the hour with maximum water demand
• Metering/Billing: includes the costs to maintain customer meters, produce bills and maintain customer billing records
• Metering, billing and collection costs are generally used to calculate the base monthly charge (customer charge)
• Remaining costs for water and wastewater are accumulated by customer class divided by the estimated volume of usage for each customer class to arrive at a rate per hundred cubic feet of usage (ccf)
Fire
Functions: Volume Max Day Max Hour Meter Billing Services
Water System Asset Value ($Million) 230$ 27,520$ 29,981$ 856$ -$ 1,204$
Asset Allocation % 0.385% 46.027% 50.143% 1.432% 0.000% 2.014%
Asset Allocation for Revenues 0.393% 46.973% 51.173% 1.461%
Field Water Allocation % 0.000% 13.000% 85.000% 2.000% 0.000% 0.000%
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City of Ann Arbor Water System Allocations(Carter & Burgess Report)
• The “report year” or FY 2004 unit costs for water were:
Types of Services Unit Costs Unit
� Volume of water used $0.0025 CCF
� Maximum Day $0.7096 CCF
� Maximum Hour $0.3857 CCF
� Meter activities $0.6841 Meter Equivalent
� Billing and collecting $14.7374 Account
• Rates were designed to cover these costs
• Rate design objectives included:� City Council and Staff Objectives
� Revenue from rates must be sufficient to fund all service costs
� Rates must comply with any service contract provisions and with Federal and State reg requirements
� Rates should be designed to support conservation of water resources
� Customer Input Objectives� Rate design should be understandable
� Rates should be based on the cost to provide service
� Water and wastewater service should be affordable
� Revenue from rates should assure revenue stability
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City of Ann Arbor Water System Allocations(Carter & Burgess Report)
• To accomplish the rate design objectives the following changes were proposed to the rate structure in place at that time (July, 2004):
� Consumption formerly included in the “minimum quarterly bills” (up to 7 units) was removed to achieve a better match of billing and collection costs with the minimum bill amount
� An “inclining three-block rate structure” was created for the residential customer class. Although it was not based on an average use to peak use model:� The more you use the more you pay per unit – more equitable recovery of costs
� Encourages conservation of water resources
� Provides for affordability at low consumption levels
� Water only meters used by customers for irrigation and/or cooling processes were assigned the same unit cost as the highest unit price block for residential customers to more equitably recover cost incurred, which incents water conservation
� Private fire protection accounts were assessed a minimum monthly/quarterly charge to recover a portion of infrastructure costs available to that service
� The customer charge was introduced at a lower rate with the intent to reach an equity position ($14.74) within 5 years (2010 = $11.25/qtr water; $10.57/qtr sewer)
� This minimized the immediate impact on low volume users (“life-line” rate)
� There was recognition of a reduced cost of service in this category because of the AMR investment
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Cost of Service: Inclining Block Rate Structure
The study’s calculations resulted in the following proposed rates, which were actually implemented July, 2004:
WATER
0 9
Base Charge to to Over
8 28 28
RESIDENTIAL
Rate per unit of service 9.00$ 0.97$ 1.92$ 2.92$
Base Charge
Volume
Charge
Per CCF
COMMERCIAL
Rate per unit of service 9.00$ 1.92$
UNIVERSITY
Rate per unit of service 9.00$ 1.92$
PUBLIC SCHOOLS
Rate per unit of service 9.00$ 1.92$
WATER ONLY
Rate per unit of service 9.00$ 2.92$
FIRE SERVICE
Rate per unit of service 18.00$
Volume Charge Per CCF
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Cost of Service: Inclining Block Rate Structure
• First effort (pre-MDM) at developing Cost of Service rates
• Implemented July 1, 2004
• Residential customers only
• Designed to increase customer awareness and appreciation of the value of water and encourage conservation/more informed choices about water use
• Based on recovering the average cost per unit in “demand” blocks
• Began with 3-tier structure – 4th tier added July 1, 2005
• Model based on national load research data; graphed the number of bills at each unit of commodity and found that it formed a perfect bell curve
# o
f B
ills
# of Units
Tier 1
Tier 2 Tier 3
Tier 4
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Cost of Service: Residential Customer Class 4-Tier Inclining Block Rate Structure
Actual Rates for July 1, 2010 - June 30, 2011
Residential Residential 2 Commercial Water Only
(add. of water only meter) (based on peaking factor) (Commercial)
1-7 Units $1.23 $1.23 $2.85 (<=5) $4.31
8-28 Units (21) $2.53 $2.53 $5.21 (>5<8) $4.31
29-45 Units (17) $4.23 $2.53 $8.90 (>=8) $4.31
46 Units or more $6.10 $2.53 $4.31
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• Significant change is reflected in the system demand profile after the “Cost of Service” rate structure was introduced for the 20 largest commercial class customers in July 2008 and all commercial classcustomers in July 2009.
Peak Day vs. Average Day by Year
10
13
16
19
22
25
28
31
2003 2004 2005 2006 2007 2008 2009
Year
Millio
ns
of
Ga
llo
ns
Avg Day
Peak Day
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Cost of Service Rate StructureUsing City of A2 System AMI System Data
• Implemented July 1, 2008
• Infrastructure must be built to meet peak demand
• Initially and for the foreseeable future Commercial accounts only
• The idea is to associate costs to the appropriate users
• The City had to find ways to encourage changes in peak use patterns, assign costs to customers fairly, avoid near term costs associated with water supply development, and to roll out investments in water infrastructure to water customers in an equitable way.
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Cost of Service Calculations
• Usage for the year / # of days in the year = average daily demand
• Find 3 highest reads between May and October (City’s Peak Period)
• Eliminate top 2 reads
• Divide remaining “high read” by average daily demand
� <5 Peaking Factor = Tier 1 – $2.85 (Fiscal Year 2011 Rates)
� >5<8 Peaking Factor = Tier 2 – $5.21
� >8 Peaking Factor = Tier 3 – $8.90
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7/1/2007 7/2/2007 7/3/2007 7/4/2007 7/5/2007 7/6/2007 7/7/2007 7/8/2007 7/9/2007
Hoover, LLC 0 524 90 24 81 85 39 41 19
2015 Washtenaw Ave.
Acct 522061-145709 7/20/2007 7/21/2007 7/22/2007 7/23/2007 7/24/2007 7/25/2007 7/26/2007 7/27/2007 7/28/2007
853 22 28 541 337 86 382 315 134
8/1/2007 8/2/2007 8/3/2007 8/4/2007 8/5/2007 8/6/2007 8/7/2007 8/8/2007 8/10/2007
1,937 830 2,697 821 1,064 1,540 498 110 169
9/20/2007 9/21/2007 9/22/2007 9/23/2007 9/24/2007 9/25/2007 9/26/2007 9/27/2007 9/28/2007
1,007 114 979 2,671 1,312 1,667 2,114 1,342 1,987
Total Consumption FY08 732.03/365 = 1.98
Avg Daily Consumption 2.00
Highest Daily Consump
between May - October
(7/1/07-10/30/07 and
5/1/08 - 6/30/08)
8/3/2007 26.97 43 hours - Exclude
9/23/2007 26.71 42 hours - Exclude
9/26/2007 21.14 Top 1 - Eliminate
9/28/2007 19.87 Top 2 - Eliminate
8/1/2007 19.37 Top 3 - Use for Peaking Factor 19.37/2.00 = 9.685
Peaking Factor 9.68 Tier 3
Sample Cost of Service CalculationTier 3 Placement
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MDM Benefits for the Utility and its Customers
• Enhanced billing accuracy and timeliness of billing (no more estimates or “false” readings; meter data is available for billing purposes whenever we are)
• Customer self-service applications (i.e. near real-time consumption data on-line)
• Providing meter data to customers in a meaningful way helps them to better understand the “value” of water and manage their own water usage
• Customer perceptions of the value of water has resulted in “on-peak”reductions
• Daily reads allow the utility to look at daily demand and peak to average ratios
• New commercial rate structures are based on peak to average ratio calculations
• The data and resulting rate plans allow the utility to distribute costs where the costs are created instead of a flat rate across the entire customer base or customer class
• Improved business processes (i.e. more accurate cost recovery for water service; weekly “0” usage/negative usage reports; tamper detection)
• There is future applicability to leak detection and water loss management
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For more information:
www.a2gov.org
Water and Waste Digest – February 2009
Automated Meter Reading Supports Cost of Service Rates in Ann Arbor
http://www.wwdmag.com/Measuring-the-Value-of-Water-article10113
US Mayor Newspaper – April 2009
Advanced Metering Infrastructure Encourages Conservation Through Automation in Ann Arbor
http://usmayors.org/usmayornewspaper/documents/04_27_09/pg23_ann_arbor.asp
Metering International – Issue 4 2009
Leveraging Technology for Improved Water Resource Management, Asset
Management, and Customer Service
WaterWorld – September 2009
Get Smart: Advanced Metering Means Wiser Rates and Consumers
http://www.waterworld.com/index/display/article-display/articles/water-utility-management/volume-2/Issue_3/features/get-smart__advanced.html
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Contact Information
Wendy Welser, Manager
Customer Service Center, City of Ann Arbor
(734)794-6321
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APPENDIXOther On-Line Options for Ann Arbor Residents/Customers
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General Tab – Property/Parcel Information
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On-Line Citizen Request System
GPS system locates validated address; address
can be changed for requested service
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On-Line Citizen Request System
GPS system locates validated address; address
can be changed for requested service
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On-Line Citizen Request System
The initiator selects the service request type
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On-Line Citizen Request System
The initiator provides additional info about the
problem, as well as contact information
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Solar Potential Tab
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StormWater Tab
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StormWater Tab - Information