饱和器底部温差对HAT循环性能的影响  被引量:2

EFFECT OF TEMPERATURE DIFFERENCE AT THE BOTTOM OF SATURATOR ON THE PERFORMANCE OF HAT CYCLE

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作  者:靳海明[1] 蔡颐年[1] 蔡睿贤[1] 林汝谋[1] 肖云汉[1] 

机构地区:[1]西安交通大学,中国科学院工程热物理研究所

出  处:《西安交通大学学报》1996年第5期80-85,共6页Journal of Xi'an Jiaotong University

基  金:动力工程多相流国家重点实验室开放基金

摘  要:研究了饱和器底部温差STD对循环性能的影响.理论分析发现,随着饱和器底部温差的增加,循环效率随之降低,而饱和器出口处空气的含湿量、单位输出功的水消耗及比功都有所提高,通过中冷器、后冷器及热水器的水流量也随之增大;当饱和器出口空气的相对湿度增大时,循环电端效率、单位输出功的水消耗及比功都有一定幅度的提高,通过中冷器、后冷器及热水器的水流量却有所降低.就水流量而言,从饱和器底部放出的水量(MW4)较多,受饱和器底部温差的影响也较大,其余依次是热水器(MW3)、循环回水(MW5)、后冷器(MW2)和中冷器(MW1).The temperature difference at the bottom of saturator STD is one of theimportant parameters influencing the performance of HAT.cycle. The effect of STD on HATcycle performance is studied in this paper. As STD rises, cycle efficiency tends to decrease,but water content in outlet air of saturator, specific water consumption and specific worktend to increasel and relative humidity of outlet air of saturator rises, cycle efficiency, andspecific work increase to a certain extent, however, water flows decrease in intercooler, aftercooler and economizer. In the light of water floW, the outlet water flow rate from the bottom of saturator is maximum, and it is most influenced by S7'D, then in the consecutive order, are the flow rates of economizer (MW3 ), circulated water (MWS ), aftercooler(MW2), and intercooler (MW1).

关 键 词:HAT循环 饱和器 温差 热力学效率 

分 类 号:TK212.2[动力工程及工程热物理—动力机械及工程]

 

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