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Thermodynamic analysis of triple effect ammonia–water absorption compression (hybrid) cycle
Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering ( IF 2.3 ) Pub Date : 2021-02-17 , DOI: 10.1177/0954408921995682
CP Jawahar 1
Affiliation  

This paper presents the energy analysis of a triple effect absorption compression (hybrid) cycle employing ammonia water as working fluid. The performance parameters such as cooling capacity and coefficient of performance of the hybrid cycle is analyzed by varying the temperature of evaporator from −10 °C to 10 °C, absorber and condenser temperatures in first stage from 25 °C to 45 °C, degassing width in both the stages from 0.02 to 0.12 and is compared with the conventional triple effect absorption cycle. The results of the analysis show that the maximum cooling capacity attained in the hybrid cycle is 472.3 kW, at 10 °C evaporator temperature and first stage degassing width of 0.12. The coefficient of performance of the hybrid cycle is about 30 to 65% more than the coefficient of performance of conventional triple effect cycle.



中文翻译:

三效氨水吸收压缩(混合)循环的热力学分析

本文介绍了以氨水为工作液的三重吸收压缩(混合)循环的能量分析。通过将蒸发器的温度从-10°C更改为10°C,将第一阶段的吸收器和冷凝器温度从25°C更改为45°C,进行脱气,来分析混合循环的性能参数,例如冷却能力和性能系数两个阶段的宽度都在0.02到0.12之间,并与常规的三重吸收周期比较。分析结果表明,在10°C的蒸发器温度和0.12的第一级脱气宽度下,混合循环中获得的最大冷却能力为472.3 kW。混合循环的性能系数比常规三效循环的性能系数高约30%至65%。

更新日期:2021-02-18
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