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恒温热源不可逆闭式中冷回热燃气轮机循环的生态学优化 被引量:3

Ecological Optimization of a Closed Cycle Gas Turbine with Irreversible Intercooling and Regenerated Coupled to an Isothermal Heat Reservoir
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摘要 考虑循环过程的内外不可逆性,以生态学函数为目标,优化了总压比和中间压比分配,分析了高低温侧换热器、中冷器和回热器的性能参数对最大生态学函数及其参数的影响,并与以功率为优化目标时的循环性能进行了比较。结果表明:以生态学函数为优化目标时比以功率为优化目标时具有更高的效率,但功率相差不太多,反映了输出功率和效率间的最佳匹配。 Focusing on an ecological function as the target and considering the internal as well as the external irreversibility of cyclic processes, the overall pressure ratio, together with the intermediate pressure ratio allotment are optimized ; the inflaence of property oparamenters, like the effectireness of the intercooler and regenerotor, on the moximal ecological function and corresponding paramenters are analyzed as well as A comparison is made with the cycle performonce in case power output is taken as the target of optimiration, reveats the fact that efficiency is higher if the ecological function is taken as the target of optimization compored to the case where power is taken as the target, though the power output differs but little in both cases. This shows that for optimizing purposes the ecological function is the best compromise between power and efficiency optimization.
作者 王文华 陈林根 孙丰瑞
机构地区 海军工程大学动力工程系
出处 《动力工程》 EI CSCD 北大核心 2007年第3期385-388,共4页 Power Engineering
基金 教育部新世纪优秀人才支持计划项目(NCET-04-1006) 全国优秀博士学位论文作者专项资金资助项目(200136) 海军工程大学科研基金项目(HGDJJ03016)
关键词 能源与动力工程 燃气轮机循环 有限时间热力学 中冷 回热 生态学函数 energy and power engineering gas turbine cycle limited time thermodynamics intercooling regeneration ecological function
分类号 TK472.5 [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8

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  • 1王文华,陈林根,孙丰瑞.恒温热源条件下不可逆闭式中冷回热布雷顿循环的功率优化[J].燃气轮机技术,2004,17(3):36-39. 被引量:7
  • 2佐藤豪.燃气轮机循环理论[M].北京:机械工业出版社,1983.. 被引量:3
  • 3Bejan A. Entropy generation minimization: The new thermodynamics of finite-size devices and finite-time process. J. Appl. Phys., 1996, 79(3): 1 191-1 218. 被引量:1
  • 4Chen L, Wu C, Sun F. Finite time thermodynamic optimization or entropy generation minimization of energy systems. J. Non-Equilib. Thermodyn., 1999, 24(4):327-359. 被引量:1
  • 5Cheng C Y, Chen C K. Ecological optimization of an endoreversible Brayton cycle. Energy Convers. Mgmt.,1998, 39(1): 33-44. 被引量:1
  • 6Zheng J, Chen L, Sun F, et al. Power density analysis of an endoreversible closed Brayton cycle. Int. J. Ambient Energy, 2001, 22(2): 95-104. 被引量:1
  • 7Roco J M M, Velasco S, Medina A, et al. Optimum performance of a regenerative Brayton thermal cycle. J. Appl. Phys. 1997, 82(6): 2 735-2 741. 被引量:1
  • 8Chen L, Zheng J, Sun F, et al. Power density analysis and optimization of a regenerated closed variable-temperature heat reservoir Brayton cycle. J. Phys. D: Appl. Phys., 2001,34(11): 1 727-1 739. 被引量:1
  • 9Cheng C Y, Chen C K. Maximum power of an endoreversible intercooled Brayton cycle. Int. J. Energy Res., 2000, 24(6): 485-494. 被引量:1
  • 10Chen L, Zheng J, Sun F, et al. Power density analysis and optimization of a regenerated closed variable-temperature heat reservoir Brayton cycle. J. Phys. D:Appl. Phys., 2001, 34(11):1 727~1 739 被引量:1

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动力工程
2007年 第3期

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