期刊文献+

中冷后回热式布雷顿-逆布雷顿联合循环 被引量:1

A Combined Intercooled Regenerative Brayton and Inverse Brayton Cycles with Regeneration After Inverse Cycle
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摘要 提出了中冷后回热式布雷顿-逆布雷顿联合循环构型,建立了其热力学模型。对该模型进行了热力学第一定律分析与优化,推导出了热效率和比功的解析式,讨论了总压比给定和总压比变化两种情形,优化了中间压比,通过数值计算详细分析了各主要设计参数对循环一般性能和最优性能的影响。发现存在最佳的中冷压比使循环效率和比功获得最大值;存在最佳的总压比使循环效率和比功获得最大值;在总压比较大时,底循环最佳压比小于等于1,此时压气机3可以取消。 A configuration of combined intercooled regenerative Brayton and inverse Brayton cycles with regeneration after the inverse cycle was proposed, and its thermodynamic model was established. The first law of thermodynamic was analyzed and optimized for the combined cycle. The analytical formulae of thermal efficiency and specific work were derived. The two cases with fixed and variable total pressure ratios were discussed, and the intercooling pressure ratios were optimized. The effects of the main design parameters on the general and optimal performances of the cycle were analyzed by detailed numerical examples. It is found that there exist two optimal intercooling pressure ratio corresponding to the maximum efficiency and the maximum speeifie work, respectively, and two optimal total pressure ratio corresponding to the maximum efficiency and the maximum specific work, respectively. When the total pressure ratio is large enough, the optimum pressure ratio of the bottom cycle is less than 1 and the compressor 3 can he cancelled at this time.
出处 《热力透平》 2016年第1期8-13,共6页 Thermal Turbine
基金 国家自然科学基金(51576207)
关键词 中冷后回热布雷顿循-逆布雷顿循环 联合循环 第一定律分析 性能优化 intercooled regenerative Brayton and inverse Brayton cycles after the inverse cycle combined cycle first law analysis performance optimization
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参考文献13

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二级参考文献6

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共引文献4

同被引文献15

  • 1张万里,陈林根,孙丰瑞.布雷顿-逆布雷顿联合循环最优性能[J].工程热物理学报,2008,29(8):1261-1266. 被引量:6
  • 2张万里.布雷顿、逆布雷顿联合循环的热力学分析与优化[D].武汉:海军工程大学,2006.
  • 3张泽龙.开式回热式布雷顿-逆布雷顿联合循环热力学分析与优化[D].武汉:海军工程大学,2011.
  • 4RAI3CENCO V, VARGAS J V C, BEJAN A. Thermodynamic optimization of a gas turbine power plant with pressure drop irre- versibilities [J~. Transaction of ASME, Journal of Energy Re- sources Technology, 1998, 120(3): 233-240.
  • 5ZHANG W L, CHEN L G, SUN F R. Power and efficiency optimization for combined Brayton and inverse Brayton cycles [J]. Applied Thermal Engineering, 2009, 29 (14): 2885- 2894.
  • 6ZHANG W L, CHEN L G, SUN F R. Power and efficiency optimization for combined Brayton and two parallel inverse Brayton cycles, Part 2: Performance optimization ~-J~. Pro- ceedings IMechE, Part C: Journal of Mechanical Engineering Science, 2008, 222(3), 405 413.
  • 7CHEN L G, ZHANG W L, SUN F R. Power and efficiency optimization for combined Brayton and two parallel inverse Brayton cycles. Part 1: description and modeling [-J~. Pro- ceedings IMechE, Part C: Journal of Mechanical Engineering Science, 2008, 222(3): 393-403.
  • 8张泽龙,陈林根,孙丰瑞.一种后回热式布雷顿-逆布雷顿联合循环有限时间热力学优化//中国工程热物理学会工程热力学与能源利用学术会议论文集.武汉:中国工程热物理学会,2011.
  • 9CHEN L G, ZHANG Z L, SUN F R. Thermodynamic modelling for open combined regenerative Brayton and in- verse Brayton cycles with regeneration before the inverse cy- cle [-J~. Entropy, 2012, 14(1): 58-73.
  • 10倪栋梁.中冷回热式布雷顿-逆布雷顿联合循环热力学分析与优化[D].武汉:海军工程大学,2015.

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