Energy, Volume 185, 15 October 2019,
Electricity systems based on renewables have an increasing demand for flexibility. This paper considers the potential of power-to-gas to provide flexibility and enhance system integration of renewables. Existing research on power-to-gas typically analyses the system effects of a predetermined power-to-gas unit without endogenising the investment decision. Moreover, insights related to market and portfolio effects of power-to-gas are rare. To this end this work presents a stochastic electricity market model. Market players considered include generating firms with different generation portfolios and different consumer groups. Firms earn revenues from an energy market, a capacity market and a feed-in premium for renewable generation. They maximise their profits by optimising the operation of existing assets and investing in new generation assets and power-to-gas. Firms with renewable generation benefit from investing in power-to-gas. While the technology itself is loss-making, power-to-gas particularly increases demand and hence prices in low-load hours. Therefore, renewable generation becomes more profitable, which justifies the investment. Metrics such as LCOE, which consider each technology in isolation, fail to capture this effect. The increase in the electricity price results in higher costs to consumers and so the overall transfer from consumers to wind generators increases in the presence of power-to-gas.
Alternative Energy; Costs; Electricity; Electricity Industry; Electricity Market Model; Electricity Prices; Energy Market; Energy Planning; Future Prospect; Gases; Generation Portfolios; Investment Decisions; Investment Incentive; Investments; Market Modelling; Portfolio Effects; Power Markets; Power-to-Gas; Price Dynamics; Profitability; Renewable Generation; Stochastic Market Modelling; Stochastic Models; Stochastic Systems; Technological Development; Wind Energy; Wind Generator Systems; Wind Power; Global