制冷
製冷
제랭
Refrigeration
2015年
3期
20-24
,共5页
余热%吸附制冷%制冷管
餘熱%吸附製冷%製冷管
여열%흡부제랭%제랭관
Waste heat%Adsorption refrigeration%Cooling tube
根据固体吸附式制冷原理, 介绍了一种以余热为热源的余热吸附制冷管. 设计了一种新型的余热冷管测试装置, 采用该装置对余热冷管的运行过程进行实验研究. 实验结果表明: 在吸附环境温度为12℃, 设定脱附温度为180℃时, 余热冷管单只制冷量为31kJ, 制冷管最低温度达到3℃, 换热后空气温度可达到7℃.
根據固體吸附式製冷原理, 介紹瞭一種以餘熱為熱源的餘熱吸附製冷管. 設計瞭一種新型的餘熱冷管測試裝置, 採用該裝置對餘熱冷管的運行過程進行實驗研究. 實驗結果錶明: 在吸附環境溫度為12℃, 設定脫附溫度為180℃時, 餘熱冷管單隻製冷量為31kJ, 製冷管最低溫度達到3℃, 換熱後空氣溫度可達到7℃.
근거고체흡부식제랭원리, 개소료일충이여열위열원적여열흡부제랭관. 설계료일충신형적여열랭관측시장치, 채용해장치대여열랭관적운행과정진행실험연구. 실험결과표명: 재흡부배경온도위12℃, 설정탈부온도위180℃시, 여열랭관단지제랭량위31kJ, 제랭관최저온도체도3℃, 환열후공기온도가체도7℃.
The solid adsorption refrigeration principle, introduces a waste heat as a heat source to heat absorption refrigeration tube. Design and introduces a new type of heat pipe cooling test device, using the device during opera-tion of the heat pipe cold experimental study. The results show that:in the adsorption of ambient temperature 12℃, set the desorption temperature of 180℃, heat the cold pipe cooling capacity alone 31kJ, cooling pipe lowest tem-perature reached 3℃, after the heat exchanger air temperature can reach 700 degrees Celsius.
