June 29, 2009 Smart Grid, Demand Response & Consumers NASUCA – Boston 2009.
Copyright © 2014 The Brattle Group, Inc. A Path Forward for Residential Demand Charges Ryan Hledik...
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Transcript of Copyright © 2014 The Brattle Group, Inc. A Path Forward for Residential Demand Charges Ryan Hledik...
Copyright © 2014 The Brattle Group, Inc.
A Path Forward for Residential Demand Charges
Ryan Hledik
Aust in , TXNovember 10 , 2015
PRESENTED BY
2015 NASUCA Annual Meeting
| brattle.com2
What explains the new interest in demand charges for residential customers?
Existing two-part tariffs do not reflect the underlying cost structure
▀ Fixed service charge ($/month)▀ Non-time-varying energy charge (cents/kWh)
Costs that vary with system peak-coincident demand, a customer’s maximum demand, or with time or location, are rolled into volumetric energy charges
This is leading to fairness/equity problems that are likely to become more pronounced in the future
Advanced metering infrastructure allows demand charges to be offered without incremental metering costs
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How would rates change with a demand charge?
▀ The introduction of a demand charge may be coupled with other modifications to the rate’s design
▀ Introducing a demand charge requires the ability to measure demand; nearly half of U.S. households already have a smart meter
OldTwo-Part Rate
Fixed charge $10/month
Volumetric charge 10 cents/kWh
Demand charge $0
Option A
$10/month
6 cents/kWh
$10/kW-month
NewThree-Part Rate
One illustration among many possible variations:
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Two important clarifying comments about demand charges…
A demand charge is not a fixed service charge▀ A demand charge can be avoided through load management▀ It does not automatically increase bills for small customers
There are many ways to design a demand charge▀ Customer’s maximum demand during month▀ Max demand during peak hours of day (e.g. 2 pm to 6 pm)▀ Demand during actual hour(s) of system peak▀ Average of customer’s highest X demand hours of month▀ Average over interval of 15, 30, 60, even 120 minutes▀ Etc.
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Demand charges do not automatically increase bills for small customers
With Increased Fixed Charge With New Demand Charge
Correlation between bill impact and customer size is stronger with increased fixed charge Whether small customers are low income customers is another question entirely…
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Some utilities in the U.S. already offer residential rates with demand charges
▀ 19 utilities offer residential demand charges, 10 of which are IOUs
▀ They were proposed in Kansas, Nevada, and Illinois and are being considered by other utilities as well
Summer Demand Charges in Existing Rates Comments
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There are good reasons to introduce a well-designed demand charge
Better align prices and costs
Reduce inter-class cross-subsidies
Regulatory precedent (i.e., commercial & industrial experience)
Incentivize smarter load management
Bills do not necessarily increase for small customers Potential bill savings for low income customers
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We reached out to industry stakeholders to get a range of perspectives on demand charges
Interviews with 9 consumer advocates
Review of public filings, reports, articles
Participation in 10 industry events on the topic over the past year
Informal correspondence with▀ Environmental groups▀ Solar developers▀ Commission staff▀ Utilities▀ Researchers / academics
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Common stakeholder concerns about demand charges
1. Demand charges will increase bills for low income customers
2. Residential customers will not understand demand charges
3. They will remove the incentive to invest in energy efficiency and rooftop solar PV
4. They will increase monthly bill volatility
5. Demand charges are not cost-based; TOU is a better option
6. They will require investment in expensive metering and billing infrastructure
See forthcoming EEI whitepaper for more detailed discussion
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New initiatives can address stakeholder concerns
Quantify bill impacts, particularly for low- and moderate-income customers
Assess customer understanding of demand charges through market research and identify the best way to communicate the concept
Assess customer response to demand charges through empirical analysis, pilots, and/or a test-and-learn approach
Establish a national conversation on residential demand charges
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Initiatives to address stakeholder concerns (cont’d)
Consider innovative variations on conventional demand charge designs
Develop a customer education plan
Phase in the rate gradually
Develop protections for vulnerable customers
The transition will have to be tailored to the unique circumstances of each regulatory jurisdiction
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Further reading
Berg, Sanford and Andreas Savvides, “The Theory of Maximum kW Demand Charges for Electricity,” Energy Economics, October 1983.
Brown, Toby and Ahmad Faruqui, “Structure of Electricity Distribution Network Tariffs: Recovery of Residual Costs,” Australian Energy Market Commission, August 2014.
Caves, Douglas and Laurits Christensen, “Econometric Analysis of Residential Time-of-Use Electricity Pricing Experiments,” Journal of Econometrics, 1980.
Caves, Douglas, Laurits Christensen, and Joseph Herriges, “Modelling Alternative Residential Peak-Load Electricity Rate Structures,” Journal of Econometrics, 1984.
Crew, Michael and Paul Kleindorfer, Public Utility Economics, St. Martin’s Press, NY, 1979.
Hledik, Ryan. “Rediscovering Residential Demand Charges,” The Electricity Journal, Volume 27, Issue 7, August–September 2014, Pages 82–96.
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Further reading (concluded)
Schwarz, Peter, “The Estimated Effects on Industry of Time-of-Day Demand and Energy Electricity Prices,” The Journal of Industrial Economics, June 1984.
Stokke, Andreas, Gerard Doorman, and Torgeir Ericson, “An Analysis of a Demand Charge Electricity Grid Tariff in the Residential Sector,” Discussion Paper 574, Statistics Norway Research Department, January 2009.
Taylor, Thomas N., “Time-of-Day Pricing with a Demand Charge: Three-Year Results for a Summer Peak,” MSU Public Utilities Papers, 1982.
Taylor, Thomas and Peter Schwartz, “A Residential Demand Charge: Evidence from the Duke Power Time-of-Day Pricing Experiment,” The Energy Journal, April 1986.
Yakubovich, Valery, Mark Granovetter, and Patrick McGuire, “Electric Charges: The Social Construction of Rate Systems,” Theory and Society, 2005.
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Appendix
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Customers don’t need to be electricity experts to understand a demand charge
Responding to a demand charge does not require that the customers know exactly when their maximum demand will occur
If customers know to avoid the simultaneous use of electricity-intensive appliances, they could easily reduce their maximum demand without ever knowing when it occurs
This simple message should be stressed in customer marketing and outreach initiatives associated with the demand rate
Examples from utility websites▀ APS: “Limit the number of appliances you use at once during on-peak hours”▀ Georgia Power: “Avoid simultaneous use of major appliances. If you can
avoid running appliances at the same time, then your peak demand would be lower. This translates to less demand on Georgia Power Company, and savings for you!
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Staggering the use of a few key appliances could lead to significant demand reductions
▀ Use of some of the appliances is inflexible (1 kW)
▀ Use of other appliances could be easily staggered to reduce demand
▀ Simply delaying use of the dryer until after the oven, stove, and hand iron had been turned off would reduce the customer’s maximum demand by 3.5 kW
▀ This would bring the customer’s maximum demand down to 5 kW, a roughly 40% reduction in demand
Avg. Demand Over 15 min
ApplianceAvg. Demand
(kW)
Dryer 4.0
Oven 2.0
Stove 1.0
Hand iron 0.5
Misc. plug loads 0.2
Lighting 0.3
Refrigerator 0.5
Total 8.5
FlexibleLoad
(7.5 kW)
InflexibleLoad
(1 kW)
Comments
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Several tools are available to facilitate the rate transition
▀ Gradually escalating the demand charge over time
▀ Temporary bill protection
▀ Tiered demand charges or ceiling on applicable demand
▀ Shadow bills
▀ Enhanced customer outreach and education
▀ Rebates for enabling technologies
▀ Exemption for vulnerable / low income customers
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Presenter InformationRYAN HLEDIKPrincipal │ San Francisco, [email protected] +1.415.217.1018
Mr. Hledik specializes in the economics of policies and technologies that are focused on the energy consumer. He assists clients confronting complex issues related to the recent slowdown in electricity sales growth and the evolution of utility customers from passive consumers to active managers of their energy needs.
Mr. Hledik has supported utilities, policymakers, law firms, technology firms, research organizations, and wholesale market operators in matters related to retail rate design, energy efficiency, demand response, distributed generation, and smart grid investments. He has worked with more than 50 clients across 30 states and seven countries.
A frequent presenter on the benefits of smarter energy management, Mr. Hledik has spoken at events throughout the United States, as well as in Brazil, Canada, Korea, Saudi Arabia, and Vietnam. He regularly publishes articles on complex retail electricity issues.
Mr. Hledik received his M.S. in Management Science and Engineering from Stanford University, with a concentration in Energy Economics and Policy. He received his B.S. in Applied Science from the University of Pennsylvania, with minors in Economics and Mathematics. Prior to joining The Brattle Group, Mr. Hledik was a research assistant with Stanford University’s Energy Modeling Forum and a research analyst at Charles River Associates.
The views expressed in this presentation are strictly those of the presenter(s) and do not necessarily state or reflect the views of The Brattle Group.