太阳能驱动风冷喷射式绝热吸收制冷循环研究  

作　　者：候召宁 王林[1] 闫晓娜 谈莹莹[1] 李修真 Hou Zhaoning;Wang Lin;Yan Xiaona;Tan Yingying;Li Xiuzhen(Institute of Building Energy and Thermal Science,Henan University of Science and Technology,Luoyang 471023,China;School of Landscape Architecture,Zhejiang A&F University,Hangzhou 311300,China)

机构地区：[1]河南科技大学建筑能源与热科学技术研究所,洛阳471023 [2]浙江农林大学风景园林与建筑学院,杭州311300

出　　处：《太阳能学报》2022年第3期268-273,共6页Acta Energiae Solaris Sinica

基　　金：国家自然科学基金(51706060)。

摘　　要：为改善太阳能吸收制冷循环性能并解决太阳能吸收制冷机风冷化问题,提出一种太阳能驱动的风冷喷射式绝热吸收制冷循环,通过喷射式绝热吸收器实现吸收过程的传热传质分别强化,同时回收高压溶液节流损失和再循环溶液的余压,以进一步增强吸收效果。构建组成循环各部件热力学数学模型,探讨了环境温度、发生温度、蒸发温度以及喷射器对新循环的影响,并与2种传统吸收制冷循环进行了比较分析。结果表明,存在最佳发生温度使得新循环最大热性能系数(COP_(T));引入喷射式绝热吸收器显著改善了极端条件下新循环性能,设计工况下新循环的热性能系数(COP_(T))和电性能系数(COP_(E))较风冷绝热吸收制冷循环分别提高了7.69%和43.59%,较水冷非绝热吸收-喷射制冷循环分别提高了2.44%和273.86%。In order to improve the performance of solar absorption refrigeration cycle and solve the problems of solar powered air-cooled absorption chiller,solar-driven air-cooled adiabatic jet absorption refrigeration cycle(AAJA)is proposed in this paper.The jetadiabatic absorber not only separates the processes of heat and mass transfer,but also recovers the lost work due to throttling process of high-pressure solution and excessive pressure of recirculation solution,which leads to the improvement of absorption efficiency.The mathematical model of thermodynamics of components is established,and the influences of ambient temperature,generating temperature,evaporating temperature and ejector pressure lift ratio on the three cycles are discussed and compared.The results show that,there is an optimal generating temperature for the proposed cycle to obtain the highest thermal coefficient of performance(COP_(T)),and the jet-adiabatic absorber can significantly improve cycle performance under the extreme operating conditions.As compared with the conventional air-cooled adiabatic absorption refrigeration(AAAR)cycle,the COP_(T)and electric coefficient of performance(COP_(E))of the proposed cycle are increased by 7.69%and 43.59%respectively,whereas the COP_(T)and COP_(E)of the novel cycle are 2.44%and 273.86%,respectively higher than those of the water-cooled non-adiabatic absorption ejector refrigeration(WNAE)cycle.

关 键 词：太阳能 吸收制冷 绝热吸收器 喷射器 风冷 性能系数 

分 类 号：TK513.5[动力工程及工程热物理—热能工程]