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intercooled regenerated brayton cycle
相关语句
  中冷回热布雷顿循环
     The theory of finite time thermodynamics is used in the analysis of an endoreversible closed intercooled regenerated Brayton cycle coupled to variable temperature heat reservoirs. The analytical formula about power density of the cycle is derived. The effects of thermodynamic parameters of the cycle on the power density are analyzed by numerical calculation.
     用有限时间热力学方法分析内可逆变温热源中冷回热布雷顿循环,导出了无因次功率密度的解析式,由数值计算给出了燃气轮机功率密度特性,分析了循环中各热力参数对功率密度的影响,并对最大功率工况与最大功率密度工况下的主要参数进行了比较,得出了最大功率密度设计的优点和不足。
短句来源
     Power Density Optimization of an Irreversible Closed Intercooled Regenerated Brayton Cycle
     不可逆中冷回热布雷顿循环功率密度优化
短句来源
     Efficiency Optimization for an Irreversible Closed Intercooled Regenerated Brayton Cycle
     不可逆闭式中冷回热布雷顿循环效率优化
短句来源
     Power density analysis of an endoreversible closed intercooled regenerated Brayton cycle coupled to variable-temperature heat reservoirs
     变温热源内可逆中冷回热布雷顿循环功率密度分析
短句来源
     Power Density Optimization of an Endoreversible Closed Intercooled Regenerated Brayton Cycle Coupled to Variable-temperature Heat Reservoirs
     变温热源内可逆中冷回热布雷顿循环功率密度优化
短句来源
更多       
  “intercooled regenerated brayton cycle”译为未确定词的双语例句
     Power Optimization of an Irreversible Closed Intercooled Regenerated Brayton Cycle Coupled to Constant-Temperature Heat Reservoirs
     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
短句来源
     Taking thermal efficiency as optimization objective, this paper applies finite-time thermodynamics to optimize the intercooling pressure ratio and the heat conductance distribution of hot- and cold-side heat exchangers, intercooler and regenerator of an endoreversible intercooled regenerated Brayton cycle coupled to constant-temperature heat reservoirs.
     以热效率为目标,应用有限时间热力学的方法优化了恒温热源条件下内可逆闭式中冷回热布雷顿循环的中间压比分配和高低温侧换热器、中冷器及回热器热导率分配,得到循环最大热效率.
短句来源
     In this paper,finite-time thermodynamics is applied to optimize the intercooling pressure ratio and the heat conductance distribution of hot-and cold-side heat exchangers,intercooler and regenerator of a real closed intercooled regenerated Brayton cycle.
     该文应用有限时间热力学方法研究了实际闭式燃气轮机循环热效率最大时高低温侧换热器、回热器和中冷器的热导率最佳分配和最佳中间压比分配;
短句来源
  相似匹配句对
     Dynamic Simulation of Intercooled Regenerated Cycle Gas Turbines
     中冷回热循环燃气轮机动态仿真研究
短句来源
     Dynamic behavior of marine intercooled regenerated gas turbine engines
     舰用中冷回热燃气轮机装置动态性能分析
短句来源
     Efficiency Optimization for an Irreversible Closed Intercooled Regenerated Brayton Cycle
     不可逆闭式中冷回热布雷顿循环效率优化
短句来源
     NEW ANALYSIS OF A REAL CLOSED INTERCOOLED REGENERATED BRAYTON CYCLE
     实际闭式中冷回热布雷顿循环新析
短句来源
     Efficiency optimization of an endoreversible closed intercooled regenerated Brayton cycle
     内可逆闭式中冷回热布雷顿循环效率优化
短句来源
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Finite time thermodynamics is applied to analyze the performance of an endoreversible intercooled regenerated Brayton cycle coupled to constant temoerature heat reservoirs. The expressions of dimensionless power output and efficiency are deduced. The intercooled pressure ratio is optimized for maximizing the cycle power output and efficiency. The influences of the effectivenesses of the intercooled exchanger, the regenerator, and the hot-side and cold-side heat exchangers on the performance...

Finite time thermodynamics is applied to analyze the performance of an endoreversible intercooled regenerated Brayton cycle coupled to constant temoerature heat reservoirs. The expressions of dimensionless power output and efficiency are deduced. The intercooled pressure ratio is optimized for maximizing the cycle power output and efficiency. The influences of the effectivenesses of the intercooled exchanger, the regenerator, and the hot-side and cold-side heat exchangers on the performance of the Brayton cycle are analyzed by detailed numerical examples.

应用有限时间热力学的方法分析了恒温热源条件下内可逆闭式中冷回热布雷顿循环的无因次功率和效率特性,导出了无因次功率及效率的解析式,通过数值计算,得到了分别对应于循环功率和效率的最佳中间压比分配,并研究了中冷度、回热度以及高低温侧换热器有致度对循环性能的影响。

This paper applies finite time thermodynamics to optimize the intercooling pressure ratio and heat conductance distributions of hot/cold side heat exchangers, intercooler and regenerator of an irreversible intercooled regenerated Brayton cycle coupled to constant temperature heat reservoirs. The maximum thermal efficiency is obtained. Double maximum efficiency is achieved by further optimization of the total pressure ratio. The effects of some important parameters on the optimal results are investigated...

This paper applies finite time thermodynamics to optimize the intercooling pressure ratio and heat conductance distributions of hot/cold side heat exchangers, intercooler and regenerator of an irreversible intercooled regenerated Brayton cycle coupled to constant temperature heat reservoirs. The maximum thermal efficiency is obtained. Double maximum efficiency is achieved by further optimization of the total pressure ratio. The effects of some important parameters on the optimal results are investigated by detail numerical calculations.

应用有限时间热力学的方法优化了恒温热源条件下不可逆闭式中冷回热布雷顿循环的中间压比分配和高温侧换热器、低温侧换热器、中冷器及回热器热导率分配,得到了循环最大热效率;通过进一步优化总压比,又得到了双重最大效率。最后通过数值计算,研究了一些重要参数对循环优化结果的影响。

The theory of finite time thermodynamics is used in the analysis of an endoreversible closed intercooled regenerated Brayton cycle coupled to constant temperature heat reservoirs. The power density characteristics of the cycle are derived. The effect of thermodynamic parameters of the cycle on the power density has been analyzed through numerical calculation. The advantages and disadvantages are obtained from the comparison of the main parameters of the cycle at the maximum power and...

The theory of finite time thermodynamics is used in the analysis of an endoreversible closed intercooled regenerated Brayton cycle coupled to constant temperature heat reservoirs. The power density characteristics of the cycle are derived. The effect of thermodynamic parameters of the cycle on the power density has been analyzed through numerical calculation. The advantages and disadvantages are obtained from the comparison of the main parameters of the cycle at the maximum power and maximum power density.

用有限时间热力学方法分析内可逆恒温热源中冷回热布雷顿循环,由数值计算给出了燃气轮机功率密度特性,分析了循环各热力参数对功率密度的影响,并对最大功率密度和最大功率时循环的主要参数进行了比较,得出了最大功率密度设计的优点和不足。

 
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