Vapor-liquid heat regeneration cycle performance of R22 and alternative refrigerants;
R22及其替代制冷剂的回热循环性能
Finite-time thermodynamics is applied to analyze the performance of a real closed inter-cooled regenerated Brayton cycle coupled to variable-temperature heat reservoirs.
用有限时间热力学方法分析了变温热源条件下实际闭式中冷回热布雷顿循环的性能,导出了无因次功率及效率的解析式。
The analytical formulas for the relations between power density and pressure ratio of a real regenerated Brayton cycle coupled to variable-temperature heat reservoirs are derived by using finite-time thermodynamics.
计入工质与高、低温侧换热器和回热器的热阻损失 ,压气机和涡轮机中的不可逆压缩和膨胀损失及管路系统中的压力损失 ,用有限时间热力学方法 ,导出了变温热源条件下实际回热式布雷顿循环功率密度与压比间的解析式 ;借助于数值计算 ,研究了高、低温侧换热器和回热器的热导率分配和工质与热源间的热容率匹配对最大功率密度的影响 。
Experimental study on mass and heat recovery of a highly efficient multi-function heat pipe type adsorption ice making system;
基于多功能热管的高效吸附式制冰机组回质回热实验研究
A viable combination of recycling waste heat and heat recovery will make the adsorptive air conditioning system more competitive.
基于在回热型吸附式空调样机上开展的大量实验 ,研究了有关时间因素 (如回热时间、回质时间、半周期时间等 )对样机性能制冷系数 COP和单位质量制冷功率 SCP的影响 。
In this article, detailed thermodynamic analyses of basic adsorption refrigeration cycle and regenerative adsorption refrigeration cycle is presented, an advanced adsorption cycle with internal vapour and heat recovery is developed.
本文建立了吸附式制冷基本循环和连续回热循环的热力模型,研究和发展了有蒸汽质量迁移的新型回热循环。
Power optimization of an endo-reversible inter-cooling regeneration Brayton cycle coupled to variable-temperature heat reservoirs;
变温热源条件下内可逆闭式中冷回热布雷顿循环的功率优化
Regeneration Performance of a Magnetic Ericsson Refrigeration Cycle;
磁埃里克森制冷循环的回热性能
The adoption of intercooling and regeneration technology represents a major development tendency for a new generation of marine main propulsion plants.
燃气轮机采用间冷回热技术是新一代船用主动力装置的重要发展趋势。
This paper is the first part for the research of heat regenerative adsorption air conditioning system (HAAS) modeling.
该文着重于回热型吸附空调系统研究的第一部分工作———建模。
This paper is the second part of the research of heat regenerative adsorption air conditioning design,construction and experiment.
侧重于回热型吸附式空调系统研究的第二部分工作———工程设计、构建和实验 ,根据已建立的三热源模型设计并构建了的回热型吸附式空调系统样机 ,在样机试验台上的大量实验表明 ,三热源模型较好地预测了系统性能 ,证明了余热驱动的回热型吸附式空调系统拥有乐观的商业应用前
Meso-scope thermodynamic theory for cyclic flow engines Part Ⅲ: Heat exchange between regenerators and heat exchangers;
交变流动热机的介观热力循环理论——第三部分:回热器与换热器的热交换
Simulation and analysis of influence of pressure ratio on regenerator performance;
压比对回热器性能影响的理论分析
Performance study on regenerator of G-M type single stage pulse tube cooler;
单级G-M型脉管制冷机回热器性能