the future direction of network tariff structures
TRANSCRIPT
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The future direction of network tariff
structures
CEER Workshop on Emerging Issues in Network Tariffs
19th October 2018
Tim Schittekatte
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• Least-cost distribution network
tariff design in theory and practice
• Three thoughts beyond least-cost distribution network tariff design in theory and practice
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Setup presentation
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“Something is dying alright, just not the utility. It’s the ability of regulators, utilities, and interest groups to push around revenue collection among customers without the
customers pushing back.”
S. Borenstein (Economics professor UC Berkeley)
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EC, 2015. “Study on Tariff Design for Distribution Systems.”
Focus distribution network access tariff design
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Cost-reflective:
Forward-looking-peak-coincident capacity
charge set equal to the LTMC
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Least-cost tariff design in theoryTariff as coordination tool instead of merely allocative function
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Critical peak pricing in reality?
Regulatory principles?
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Least-cost network tariff with 3 standard options: €/kWh, €/kW and/or €/customer
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Many difficulties are faced when implementing a distribution network tariff, two important ones are:
- Implementation issues with cost-reflective tariffs: Not having a perfect proxy for the network cost driver(s)
- Fairness: Tariff re-design and gains made by active consumers cannot be at the expense of passive consumers
Research questionIn a world with active consumers, how to design the least-cost distributionnetwork tariff while being faced with these two different real-worldconstraints?
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• Perfect implementation of cost-reflective charges (€/kW)
• Active consumers can invest in solar PV and batteries
Least-cost network tariff with 3 standard options: €/kWh, €/kW and/or €/customer
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1th practical difficulty:
Implementation of cost-reflective tariffs
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Implementation cost-reflective network charges
Proxy for
what
consumer
pays
Proxy for what consumer contributes to the cost
• Individual capacity-base charge
• Applied in all months
• Minimum 1 kW payment
Individual peak demand a lot
higher than their average demand
during the network peaks
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• Inaccuracy in proxy the network cost driver: individual consumer peak reduction does not result one-on-one in system peak reduction
• Active consumers can invest in solar PV and batteries
Least-cost tariffIncluding an inaccuracy in the proxy of the network cost driver
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• Inaccuracy in proxy the network cost driver: individual consumer peak reduction does not result one-on-one in system peak reduction
• Active consumers can invest in solar PV and batteries
Least-cost tariffIncluding an inaccuracy in the proxy of the network cost driver
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2nd practical difficulty:
Fairness
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Cost-reflectiveness vs fairness trade-offSensitivity regarding grid cost structure
Not cost-reflective
Unfair
• Subject to grid cost recovery
Two forces:• Lower the burden of the passive consumers by shifting
grid costs from fixed to other (distortive) charges
• Distortive network charges again increase the burden
of the passive consumer
Infeasible:
cost recovery is not respected
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Cost-reflectiveness vs fairness trade-offSensitivity regarding grid cost structure
Not cost-reflective
Unfair
• Subject to grid cost recovery
Infeasible:
cost recovery is not respected
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Cost-reflectiveness vs fairness trade-offLooking at the tariffs behind
‘’Even if volume is not a network cost driver it can make sense to recover part of the cost by (not-net metered) volumetric charges’’
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• The two difficulties have a significant impact on the least-cost network tariff design– Smartly departing from the ‘theoretical’ least-cost tariff limits welfare loss
• Interaction between the implementation issues and fairness– When not anticipating imperfect implementation, the system costs will
increase plus the fairness issues will aggravate
• Results depend on the state of the grid– Many grid investments still to be made: both active and passive consumer
can profit
– Mainly sunk grid costs: smaller passive consumers always worse off –other tools than ‘standard tariff options’ needed
• Differentiated fixed charges
• Taxation active grid users: controversial
• Specific low-income programmes
• Recovery of full grid costs through electricity bill? 16
Conclusions and policy implication
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Three thoughts beyond least-cost distribution network tariff design in
theory and practice
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1/ What about fairness other than between domestic consumers?E.g. the cascading principle
?
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2/ What about the recuperation of taxes and levies through the electricity bill?
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3/ Is support for energy efficiency, and rooftop-PV a design principle for network tariffs?
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The future direction of network tariff structures
Tim Schittekatte and Leonardo Meeus
Contact: [email protected]
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Annex
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… …
Lower-level self-interest pursuing consumers (active and passive)Objective: minimization of the total costs (bill + investment) to satisfy their electricity needsDecision variables: Possibility to invest in distributed energy resources (DERs), PV and batteriesConstraint: Fulfillment of individual electricity demand
Upper-level benevolent regulator Objective: minimization of the total system costsDecision variables:‘Structure’ of the network tariff (volumetric, capacity, fixed)‘Magnitude’ of the coefficient Constraint: Total grid costs = network charges collected Total grid costs= sunk grid costs + incr. grid cost*coincident demand
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Setup game-theoretical model: bi-level
NLP, turned into MILP
LP
MPEC, reformulated as MILP
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• Slightly smaller passive than active consumer
• Relatively cheap technology cost: batteries and solar PV
• Baseline ‘as-it-was’: nobody reacts (fit-and-forget) and network charges are volumetric, ≈ 35 % of the total bill
Data
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Proxy for
what
consumer
pays
Proxy for what consumer contributes to the cost
• Coincident capacity-base charge
• Applied only in summer and winter
• No minimum payment
Implementation cost-reflective network charges