不同工质蒸汽吸收式制冷循环的热力学分析

Q1 Engineering

International Journal of Applied Engineering Research (Netherlands) Pub Date : 2020-09-30 DOI:10.37622/ijaer/15.9.2020.911-917

A. Sathiamourtty, K. Ashok, B. Pavanan

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引用次数: 0

摘要

所有的工业过程都使用大量的热能，通过燃烧化石燃料来产生蒸汽或热量。在这些过程之后，热量作为废物被排出到周围环境。利用热操作制冷系统，如蒸汽吸收式制冷系统，可将余热转化为有用的制冷。在低温热源为60 ~ 80℃，蒸发器温度为-4 ~ 0℃的条件下，对氨硝锂水溶液和氨水氢氧化钠溶液吸收式制冷循环进行了热力学分析，研究了工作温度对各部件热负荷、性能系数的影响。吸收系统的COP随蒸发器温度和发生器温度的升高而增大。

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Thermodynamic Analysis of Vapour Absorption Refrigeration Cycle Using Different Working Fluids

All industrial process uses a lot of thermal energy by burning fossil fuel to produce steam or heat for the purpose. After the processes, heat is rejected to the surrounding as waste. This waste heat can be converted to useful refrigeration by using a heat operated refrigeration system, such as vapour absorption refrigeration system In this work, a thermodynamic analysis of ammonia lithium-nitrate water solution and ammonia water sodium hydroxide solution absorption refrigeration cycle has been studied at low generator temperature heat source 60 to 80 o C and the range of evaporator temperature -4 to 0 o C. The influences of operating temperature on the thermal load of components, coefficient of performance are investigated. The COP of the absorption system increases with increase in evaporator temperature and generator temperature.

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来源期刊

International Journal of Applied Engineering Research (Netherlands) Engineering-Engineering (all)

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