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Performance effects of combined cycle power plant with variable condenser pressure and loading

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  • Chuang, Chia-Chin
  • Sue, Deng-Chern

Abstract

Utility power producers are being driven by the inherently high efficiency and attractive installed cost of Combined Cycle Power Plants (CCPP) to consider them as the dominant choice for least-cost power. However, in a CCPP the power capability is significantly affected by the ambient temperature [Sue DC, Chuang CC, Lin PH. Performance improvement for gas turbine combined cycle power plants (GTCCPP) in Taiwan. In: Johnson D, editor. Electric power. Fourth annual conference and exhibition, vol. 4A; 2004. St Louis, MI, USA: American Center. p. 1–15. [1]], condenser pressure and power demand. In the Power Purchase Agreements (PPA) written in Taiwan, the capacity payment is based on the guaranteed power output during the operating period. Therefore, operating the CCPP at the highest performance and maintaining the guaranteed or contractual power output are important factors to get the full capacity and energy payments from the power purchaser and reduce the fuel and operating costs for the power producer.

Suggested Citation

  • Chuang, Chia-Chin & Sue, Deng-Chern, 2005. "Performance effects of combined cycle power plant with variable condenser pressure and loading," Energy, Elsevier, vol. 30(10), pages 1793-1801.
  • Handle: RePEc:eee:energy:v:30:y:2005:i:10:p:1793-1801
    DOI: 10.1016/j.energy.2004.10.003
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    References listed on IDEAS

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    1. Sue, Deng-Chern & Chuang, Chia-Chin, 2004. "Engineering design and exergy analyses for combustion gas turbine based power generation system," Energy, Elsevier, vol. 29(8), pages 1183-1205.
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    5. Variny, Miroslav & Mierka, Otto, 2009. "Improvement of part load efficiency of a combined cycle power plant provisioning ancillary services," Applied Energy, Elsevier, vol. 86(6), pages 888-894, June.
    6. González-Díaz, Abigail & Alcaráz-Calderón, Agustín M. & González-Díaz, Maria Ortencia & Méndez-Aranda, Ángel & Lucquiaud, Mathieu & González-Santaló, Jose Miguel, 2017. "Effect of the ambient conditions on gas turbine combined cycle power plants with post-combustion CO2 capture," Energy, Elsevier, vol. 134(C), pages 221-233.
    7. Wang, Wei & Zeng, Deliang & Liu, Jizhen & Niu, Yuguang & Cui, Can, 2014. "Feasibility analysis of changing turbine load in power plants using continuous condenser pressure adjustment," Energy, Elsevier, vol. 64(C), pages 533-540.
    8. Wang, Chaoyang & Liu, Ming & Zhao, Yongliang & Qiao, Yongqiang & Chong, Daotong & Yan, Junjie, 2018. "Dynamic modeling and operation optimization for the cold end system of thermal power plants during transient processes," Energy, Elsevier, vol. 145(C), pages 734-746.
    9. Cohen, Stuart M. & Dyreson, Ana & Turner, Sean & Tidwell, Vince & Voisin, Nathalie & Miara, Ariel, 2022. "A multi-model framework for assessing long- and short-term climate influences on the electric grid," Applied Energy, Elsevier, vol. 317(C).
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    12. Alklaibi, A.M. & Khan, M.N. & Khan, W.A., 2016. "Thermodynamic analysis of gas turbine with air bottoming cycle," Energy, Elsevier, vol. 107(C), pages 603-611.

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