Seasonal Hydropower Storage Dams: Are They Cost-Effective in Providing Reliability for Solar PV?

Joy N. A. Ashitey, Mehrshad Radmehr, Glenn Jenkins () and Mikhail Miklyaev
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Joy N. A. Ashitey: Faculty of Economic and Administrative Sciences, Cyprus International University, Nicosia 99258, North Cyprus, Turkey
Mehrshad Radmehr: Faculty of Economic and Administrative Sciences, Cyprus International University, Nicosia 99258, North Cyprus, Turkey
Mikhail Miklyaev: Department of Economics, Queen’s University, Kingston, ON K7L 3N6, Canada

Sustainability, 2025, vol. 17, issue 9, 1-22

Abstract: For a country to be able to sustain a policy of increasing the use of renewable energy sources to supply electricity, it must be able to continue to provide a reliable electricity supply service to its customers. Typically, electricity reliability is maintained by thermal electricity generation. To substitute solar PV for thermal electricity generation to a significant degree, it is imperative to determine the least-cost complementary technologies that will provide system reliability. In many parts of Africa and Asia, potential sites for seasonal storage dams are available or have been built. In the case studied here, maintaining service reliability by expanding the capacity of the generation plant of a seasonal storage dam in all scenarios is less costly than providing service reliability by a thermal alternative. However, maintaining service reliability while expanding generation by solar PV is in all cases costly. The levelized financial cost of the incremental energy supplied when a reliable service is maintained is between 30% and 89% greater than the levelized cost of a standalone solar PV plant. For the same set of scenarios, the range of the economic levelized cost is 28% to 85% greater with reliability than the standalone solar PV field without reliability. Given the circumstances of the electricity market, the least-cost technology to maintain a reliable service may be specific to the market. The analysis also shows that when the economic opportunity cost of funds increases from 2% to 11.5%, the levelized cost of renewable electricity generation systems doubles. Hence, if the developed countries of the world want low-income countries to maintain policies to reduce the use of fossil fuels to generate electricity, capital subsidies to low-income countries that are facing high economic opportunity costs of funds are likely to be necessary.

Keywords: electricity reliability; variable renewable energy; energy storage; solar energy; dam storage; levelized cost; financial cost; economic cost (search for similar items in EconPapers)
JEL-codes: O13 Q Q0 Q2 Q3 Q5 Q56 (search for similar items in EconPapers)
Date: 2025
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