Integration and Flexibilization of Steam Power Plants with Growing Renewable Energy Systems
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Authors
-
,IN
G. Srinivasan
DOI:
https://doi.org/10.18311/ijprvd/2022/30701Keywords:
Integration and Flexibilization, Future Development, Renewable Energy Systems, Energy MixAbstract
Increasing the flexibility of conventional power plants is one key challenge for the massive integration of highly volatile renewable energy resources into the Indian power system. Flexible power plants ensure the security of supply by compensating fluctuations in the electrical grid caused by intermittent renewable energy production from wind and sun. In this paper, the future development of the Indian electricity market is predicted and evaluated in terms of the future flexibility demand of coal and Lignite-fired power plants. As the flexibility measures for coal-fired power plants generally use inherent capabilities of the existing power plant systems, they are usually restricted by limiting factors. Here, the limiting factors for reducing the minimum load and increasing load change rates are discussed and potential measures to mitigate their influence are presented. An alternative way to increase the flexibility lies in properly integrating thermal energy storages. Integrating this storage concept the electrical minimum load can be reduced while simultaneously increasing the load change rate.
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Published
2022-07-12
How to Cite
Srinivasan, G. (2022). Integration and Flexibilization of Steam Power Plants with Growing Renewable Energy Systems. Indian Journal of Power and River Valley Development, 72(3&4), 74–79. https://doi.org/10.18311/ijprvd/2022/30701
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Articles
Received 2022-07-12
Accepted 2022-07-12
Published 2022-07-12
Accepted 2022-07-12
Published 2022-07-12
References
Flexibilization of steam power plants as partners for renewable energy systems, M. Richter, F. Mollenbruck, F. Obermuller, A. Knaut, F. Weiser, H. Lens, D. Lehmann. Chair of Environmental Process Engineering and Plant Design, University Duisburg-Essen, 45141 Essen, Germany
Institute of Energy Economics at the University of Cologne, 50827 Cologne, Germany 3STEAG Energy Services GmbH, 45128 Essen, Germany.
