Abstract
We set up a static model of electricity provision in which delivery to consumers is only imperfectly reliable. Blackouts can be either rolling or systemic; in both cases a price cap has to be imposed on the wholesale market. We characterize optimal allocations and we show that for any given value of the price cap on the wholesale market, one can decentralize these allocations thanks to two types of regulatory instruments: a retail tax, and capacity subsidies. Some properties follow. If demand is affected by multiplicative shocks only, capacity subsidies are exactly financed by the revenues from the retail tax. If moreover the distribution of systemic blackouts is exogenous, a price cap is sufficient, provided it is set at the value of lost load. In all other cases, all instruments are needed, and capacity subsidies need to be differentiated, based on the correlation between available capacity and its social value.
Keywords
Electricity; Reliability; Renewables; Climate Change;
JEL codes
- D24: Production • Cost • Capital • Capital, Total Factor, and Multifactor Productivity • Capacity
- Q41: Demand and Supply • Prices
- Q42: Alternative Energy Sources
- Q48: Government Policy
Reference
Catherine Bobtcheff, Philippe De Donder, and François Salanié, “Optimal Regulation of Electricity Provision with Rolling and Systemic Blackouts”, TSE Working Paper, n. 24-1555, July 2024.
See also
Published in
TSE Working Paper, n. 24-1555, July 2024