Using insurance to manage reliability in the distributed electricity sector: Insights from an agent-based model

High penetration of distributed technologies would call for a different way to manage electricity reliability for semi-independent households. One option could be to allow customers to withdraw power from the grid when their home system fails. This behavior, however, could constitute an existential...

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Bibliographic Details
Published in:Energy policy 2020-04, Vol.139, p.111251, Article 111251
Main Authors: Fuentes, Rolando, Sengupta, Abhijit
Format: Article
Language:English
Subjects:
Agent based models
Blackout
Blackouts
Business
Consumers
Customers
Distributed energy resources
Economic conditions
Electric industries
Electric power distribution
Electricity
Energy policy
Households
Insurance
Markets
Model testing
New business models
Penetration
Profiles
Reliability
Residential energy
Risk
Risk assessment
Utilities
Utilities of the future
Utility death spiral
Willingness to pay
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Summary:High penetration of distributed technologies would call for a different way to manage electricity reliability for semi-independent households. One option could be to allow customers to withdraw power from the grid when their home system fails. This behavior, however, could constitute an existential threat for utilities: if consumers use the network less, and continue to pay according to their usage, the utility might be unable to recover its costs. This paper investigates whether the creation of a reliability insurance market would help to deal with these concerns. We propose a business model where utilities offer insurance to semi-independent, yet risk averse households, against the prospect of a blackout, when a pay as you go system is no longer available. With the use of an Agent Based Model, we test if contracts from this market can converge into a theoretical optimal contract where bounded perception of risks and losses impact the price of insurance and potential revenues of utilities. We find that such a market could exist as consumers efficiently transfer all or a portion of their risk to the utility, based on their willingness to pay and risk profiles, which allows them to avoid blackouts at the margin. •DERs would allow customers to disconnect from the grid and by pass utilities services.•The issue of security of supply for self-sufficient households would remain.•We propose the utility can offer power of last resort to energy self-sufficient households.•We test the creation of a risk market using an Agent Based Model.•We show this enables reliability preferences to be internalized through the use of insurance.
ISSN:0301-4215
1873-6777
DOI:10.1016/j.enpol.2020.111251