压缩制冷系统节流损失及应对方案研究-《郑州大学学报(工学版)》

文章信息/Info

Author(s):: WEI Xin-li; WANG Zhong-hua; GENG Li-hong; MENG Xiang-rui; School of Chemical Engineering and Energy,Zhengzhou University,Zhengzhou 450001,China

Keywords:: compression refrigeration; throttling loss; energy saving; ejector

摘要:: 对传统单、双温压缩制冷系统(CRS)建立了理论分析的热力学模型,通过Matlab R2010a计算不同工况下的节流损失.模型以R134a为工质,物性参数通过调用REFPROP 9.0准确获取,结果发现:传统压缩系统中,节流损失占压缩机耗功13.0% ~31.9% ;双温系统中,节流损失占压缩机耗功的比例比单温系统的高约50% ﹔工况条件变化时,节流损失也相应变化.结合节流损失的特点,对3种常见的节能方案进行了分析,模拟了不同工况下压缩/喷射制冷系统的性能系数(COP),并同单纯回收节流损失的情况进行比较,结果验证了利用喷射器回收系统节流损失的可行性.

Abstract:: A thermodynamic model is established to make a theoretical analysis on conventional compressionrefrigeration systems ( CRS ),throttling losses under various operating conditions are simulated with MatlabR2010a.R134a is chosen as refrigerant in the model and its thermo-physical properties are obtained fromREFPROP 9.0.The results show that:1. throttling losses in CRS accounts for 13 to 31.9 of compressor pow-er; 2.throttling losses of double temperature CRS are about 50% higher than that of the single temperatureCRS; 3.throtling losses change with operating conditions. According to the characteristics of CRS, three com-monly used ways to recover throttling losses are analyzed. COP of C/ERS is simulated under various operatingconditions and compared with the simply recover throttling losses scheme,the results verify the feasibility of u-sing ejector in CRS.