THERMAL DESIGN FOR HARMON DRY-COOLING SYSTEM IN LARGE POWER STATION

THERMAL DESIGN FOR HARMON DRY-COOLING SYSTEM IN LARGE POWER STATION

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摘要 Based on the analysis of air flow and heat transfer in the dry-cooling towerfor Harmon system, a combined iteration method is presented to solve the coupled heat transfer anddraft equations derived from theoretical and empirical formulas, with the size of the exchangers andthe cooling tower or the systematic parameters being determined. Taking the 686 MW unit as anexample, the present calculating results are well agreed with those of the real case, and thus themethod presented is practical and feasible for reasonable design of Harmon system. Based on the analysis of air flow and heat transfer in the dry-cooling towerfor Harmon system, a combined iteration method is presented to solve the coupled heat transfer anddraft equations derived from theoretical and empirical formulas, with the size of the exchangers andthe cooling tower or the systematic parameters being determined. Taking the 686 MW unit as anexample, the present calculating results are well agreed with those of the real case, and thus themethod presented is practical and feasible for reasonable design of Harmon system.

作者 Liu BaoxingFaculty of Power Engineering, Shanghai University of Science and Technology,Shanhai 200093, China

出处《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2002年第3期271-274,共4页 中国机械工程学报（英文版）

基金 This project is supported by Main Project in Shanghai for the Combination of New technology and Production(No.9120902) Selected from Proceedings of 2000 the First International conference on Mechanical Engineering

关键词 Harmon dry cooling system Combined iteration method Performancecalculation Harmon dry cooling system Combined iteration method Performancecalculation

分类号 TM621 [电气工程—电力系统及自动化]

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参考文献10

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二级参考文献4

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共引文献6

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Chinese Journal of Mechanical Engineering

2002年第3期

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THERMAL DESIGN FOR HARMON DRY-COOLING SYSTEM IN LARGE POWER STATION

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