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M701F3型燃气-蒸汽联合循环机组的水洗系统优化 被引量:1

Washing System Optimization of M701F3 Gas-Steam Combined Cycle Units
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摘要 对M701F3型燃气-蒸汽联合循环发电机组进行了简要介绍,详细阐述了燃气轮机进行水洗的必要性,通过计算最佳离线水洗周期和水洗时不建立抽真空两种技改对机组的水洗系统进行优化,通过试验对比表明两项技改能够为企业带来明显的经济效益。 There is a case of M701F3 gas-steam combined cycle generating units,the necessity of washing gas turbine is explained. By calculating the optimal off-line washing cycle and washing without vacuum,the units were optimized. Comparison tests indicate that the technical innovations can bring significant economic benefits for the enterprise.
作者 陈林霄 杨新健
机构地区 广东惠州天然气发电有限公司 广东省特种设备检测研究院珠海检测院
出处 《燃气轮机技术》 2015年第1期62-65,共4页 Gas Turbine Technology
关键词 燃气-蒸汽联合循环 燃气轮机 最佳离线水洗周期 压气机 gas-steam combined cycle gas turbine best offline washing cycle compressor
分类号 TK477 [动力工程及工程热物理—动力机械及工程]
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参考文献3

  • 1Schneider E, Demircioglu S, Franco S, et al. Analysis of com- pressor on-line washing to optimize gas turbine power plant per- formance[ C]//Proceedings of the ASME Turbo Expo.. Orlando, FL, United States: ASME ,2009:591 - 599.
  • 2Basendwah A A, Pilidis P, Li Y G. Turbine off-line water wash op- timization approach for power generation[ C ]// Proceedings of the ASME Turbo Expo.. Barcelona. Spain : ASME. 2006:65 - 76.
  • 3程元,陈坚红,盛德仁,李蔚.联合循环发电机组燃气轮机水洗策略优化模型研究[J].中国电机工程学报,2013,33(26):95-100. 被引量:11

二级参考文献19

  • 1蔡乐,杜鑫,王松涛,周逊.某重型燃气轮机压气机顶切方法的数值模拟[J].中国电机工程学报,2012,32(32):95-100. 被引量:4
  • 2Zwebek AI,Pilidis P. Degradation effects on combinedcycle power plant performance part 3: gas and steamturbine degradation effects[C]//Proceedings of the ASMETurbo Expo.. Amsterdam,Netherlands: ASME, 2002:763-770.
  • 3Mund F C,Pilidis P. Gas turbine compressor washing:historical developments, trends and main designparameters for online systemsfJ]. Journal of Engineeringfor Gas Turbines and Power, 2006,128(2): 344-353.
  • 4Litinetsky A, litinetski V,Hain Y,et al. Parametric studyof on-line compressor washing systems using CFDanalysis[C]//Proceedings of the ASME TurboExpo.. Berlin, Germany: ASME, 2008: 903-912.
  • 5Rao P N S,Naikan V N A. An optimal maintenance policyfor compressor of a gas turbine power plant[J]. Journal ofEngineering for Gas Turbines and Power, 2008,130(2):0218011-0218015.
  • 6BasendwahAA,Pilidis P? LiYG. Turbine off-line waterwash optimization approach for power generation[C]//Proceedings of the ASME Turbo Expo.. Barcelona,Spain:ASME, 2006: 65-76.
  • 7Fabbri A,Traverso A, Cafaro S. Compressor performancerecovery systems: a new thermoeconomic approachfC]//Proceedings of the ASME Turbo Expo.. Vancouver,Canada: ASME, 2011: 567-577.
  • 8Fabbri A,Traverso A,Cafaro S. Compressor performancerecovery system: which solution and when[J]. Proceedingsof the Institution of Mechanical Engineers Part A: Journalof Power and Energy, 2011,225(4): 457-466.
  • 9Schneider E,Demircioglu S,Franco S, et al. Analysis ofcompressor on-line washing to optimize gas turbine powerplant performance[C]// Proceedings of the ASME TurboExpo.. Orlando,FL,United States: ASME, 2009:591-599.
  • 10Mezheritsky AD, Sudarev A V. Mechanism of fouling andthe cleaning technique in application to flow parts of thepower generation plant compressors[C]//Intemational GasTurbine and Aeroengine Congress and Exposition.Brussels, Belg: ASME, 1990: 90-103.

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燃气轮机技术
2015年 第1期

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