跨临界CO_(2)热泵系统最优风量实验研究  

作　　者：李霖峰 刘业凤[1] 刘帅[1] 罗勇辉 Li Linfeng;Liu Yefeng;Liu Shuai;Luo Yonghui(University of Shanghai for Science and Technology,Shanghai)

机构地区：[1]上海理工大学

出　　处：《暖通空调》2024年第9期93-98,86,共7页Heating Ventilating & Air Conditioning

基　　金：中央引导地方科技发展资金项目(编号:YDZX20213100003002)。

摘　　要：为探究在压缩机固定转速下风量对跨临界CO_(2)循环系统性能的影响,以及确定使系统达到最大COP的最优风量,搭建了跨临界CO_(2)热泵系统实验台。研究了室内、外风量对系统制热性能的影响,并总结出确定最优风量的方法。结果表明:跨临界CO_(2)热泵系统在制热模式下运行,当室内风量固定时,随着室外风量的增大,排气压力与室内出风温度均呈现出先升高后趋于平稳,系统制热COP随着室外风量的增大存在一个最优值;为准确预测最优室外风量,引入最优排气压力偏离度σ和参数变化率δ作为最优室外风量的判断依据,当σ=0.48%,δ=1.4%时,系统处于最优室外风量,即对应系统在最大的COP下运行。经过实验验证,最优室外风量预测值误差在5%以内,该方法具有较高的准确性。In order to explore the influence of air volume on the performance of transcritical CO 2 cycle system at fixed compressor speed,and to determine the optimal air volume under the maximum COP,a transcritical CO 2 heat pump system test bench is built.The influence of indoor and outdoor air volume on the heating performance of the system is studied,and the method to determine the optimal air volume is summarized.The results show that under the heating mode of the transcritical CO 2 heat pump system,when the indoor air volume is fixed,with the increase of the outdoor air volume,the exhaust pressure and the indoor air outlet temperature show a trend of rising first and then maintaining a stable state.The heating COP of the system has an optimal value with the increase of outdoor air volume.In order to accurately predict the optimal outdoor air volume,the optimal exhaust pressure deviationσand the parameter change rateδare introduced as the basis for judging the optimal air volume.Whenσ=0.48%andδ=1.4%,the system is at the optimal outdoor air volume,that is,the corresponding system operates at the maximum COP.Through experimental verification,the error of the optimal outdoor air volume prediction value is within 5%,and the method has high accuracy.

关 键 词：跨临界CO_(2)循环 热泵 最优风量 排气压力 制热COP 最优排气压力偏离度 参数变化率 

分 类 号：TU83[建筑科学—供热、供燃气、通风及空调工程]