1. Operational and financial performance of fossil fuel power plants within a high renewable energy mix
- Author
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Patrick Eser, Ndaona Chokani, and Reza S. Abhari
- Subjects
power plant cycling ,Natural resource economics ,lcsh:Mechanical engineering and machinery ,lcsh:Motor vehicles. Aeronautics. Astronautics ,020209 energy ,02 engineering and technology ,Energy development ,020401 chemical engineering ,0202 electrical engineering, electronic engineering, information engineering ,Economics ,lcsh:TJ1-1570 ,optimal power flow ,0204 chemical engineering ,Financial performance ,business.industry ,Fossil fuel ,baseload efficiency ,renewables ,Power (physics) ,Renewable energy ,partload efficiency ,Power plant cycling ,Optimal power flow ,Renewables ,Baseload efficiency ,Partload efficiency ,lcsh:Electrical engineering. Electronics. Nuclear engineering ,lcsh:TL1-4050 ,business ,lcsh:TK1-9971 - Abstract
The operation of conventional power plants in the 2030 high-renewable energy system of central Europe with high penetration of renewables is simulated in this work. Novel insights are gained in this work, since the generation, transmission and demand models have high geographic resolution, down to scale of individual units, with hourly temporal resolution. It is shown that the increases in the partload efficiency that optimize gas power plants’ financial performance in 2030 are highly dependent on the variability in power production of renewable power plants that are in close proximity to the gas power plants. While coal power plants are also cycled more, an increased baseload efficiency is more beneficial for their financial viability. Thus, there is a need for OEMs to offer a wide range of technology solutions to cover all customers’ needs in electricity markets with high penetrations of renewables. Therefore there is an increased investment risk for OEMs as they strive to match their customers’ future needs., Journal of the Global Power and Propulsion Society, 1
- Published
- 2017
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