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Volume 2 Issue S1
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LV Xiaolan, ZHENG Yun. Design Optimization of the Compressed Air System in F Advanced Class Combined Cycle Power Plant[J]. SOUTHERN ENERGY CONSTRUCTION, 2015, 2(S1): 15-18,14. doi: 10.16516/j.gedi.issn2095-8676.2015.S1.004
Citation: LV Xiaolan, ZHENG Yun. Design Optimization of the Compressed Air System in F Advanced Class Combined Cycle Power Plant[J]. SOUTHERN ENERGY CONSTRUCTION, 2015, 2(S1): 15-18,14. doi: 10.16516/j.gedi.issn2095-8676.2015.S1.004
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Design Optimization of the Compressed Air System in F Advanced Class Combined Cycle Power Plant

doi: 10.16516/j.gedi.issn2095-8676.2015.S1.004

  • China Energy Engineering Group Guangdong Electric Power Design Institute Co., Ltd., Guangzhou 510663, China

  • Received Date: 2015-10-30
  • By the analysis on F advanced class combined cycle power plant operation conditions, sizing calculation method of air compressor and air receiver is investigated as per gas turbine special requirements. The calculated results show that 4 air compressors with capacity of 25 Nm3/min and 4 receivers with capacity of 30 m3 can make units running in safe condition and meet the minimum static investment requirement. The optimization design of the compressed air system has improved plant service air system to enable the air receiver to be served for the instrument air system during emergency condition. With the engineering practice in this project, it will provide reference to future similar engineering calculation for compressed air system.
    • 通讯作者: 陈斌, bchen63@163.com
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      沈阳化工大学材料科学与工程学院 沈阳 110142

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Design Optimization of the Compressed Air System in F Advanced Class Combined Cycle Power Plant

doi: 10.16516/j.gedi.issn2095-8676.2015.S1.004
  • China Energy Engineering Group Guangdong Electric Power Design Institute Co., Ltd., Guangzhou 510663, China
  • Received Date: 2015-10-30

Abstract: By the analysis on F advanced class combined cycle power plant operation conditions, sizing calculation method of air compressor and air receiver is investigated as per gas turbine special requirements. The calculated results show that 4 air compressors with capacity of 25 Nm3/min and 4 receivers with capacity of 30 m3 can make units running in safe condition and meet the minimum static investment requirement. The optimization design of the compressed air system has improved plant service air system to enable the air receiver to be served for the instrument air system during emergency condition. With the engineering practice in this project, it will provide reference to future similar engineering calculation for compressed air system.

LV Xiaolan, ZHENG Yun. Design Optimization of the Compressed Air System in F Advanced Class Combined Cycle Power Plant[J]. SOUTHERN ENERGY CONSTRUCTION, 2015, 2(S1): 15-18,14. doi: 10.16516/j.gedi.issn2095-8676.2015.S1.004
Citation: LV Xiaolan, ZHENG Yun. Design Optimization of the Compressed Air System in F Advanced Class Combined Cycle Power Plant[J]. SOUTHERN ENERGY CONSTRUCTION, 2015, 2(S1): 15-18,14. doi: 10.16516/j.gedi.issn2095-8676.2015.S1.004
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