1) membrane-based enthalpy exchanger
膜式全热换热器
1.
In order to analyze the influence factors of heat exchange efficiency of enthalpy exchanger,two new membrane-based enthalpy exchanger were designed and the effect of head-on wind speed,temperature,humidity and channel dimensions on the heat exchange efficiency and resistance were studied.
为了研究膜式全热换热器换热效率影响因素,本文采用一种有机超滤膜设计制作了两种新型膜式全热换热器,通过实验分析了迎面风速、温湿度以及通道长度对换热器换热效率及阻力的影响。
2) membrane enthalpy exchanger
膜全热交换器
1.
The analysis shows that some new dehumidification technologies have good development prospects,and the membrane enthalpy exchanger used to dehumidify in an air conditioning system can recover 60 to 76 percent of the exhaust heat from exhausted air,having good energy saving effectiveness.
分析表明,几种新型的除湿工艺有较好的发展前景;膜全热交换器用于空调系统中的除湿可以回收60%~76%的排气余热,有较好的节能效果。
4) plate air-to-air energy recovery ventilator
板式全热交换器
1.
Research on a new type of plate air-to-air energy recovery ventilator: economic analysis;
新型板式全热交换器研制——经济分析
2.
Research on a new type of plate air-to-air energy recovery ventilator:product development and experiments;
新型板式全热交换器研制——产品研制及实验
5) total heat exchanger's fresh air system
全热式交换器
6) full flow heat exchanger
全流式热交换器
补充资料:4063m~(3)高炉热风炉分离式热管换热器
4063m~(3)高炉热风炉分离式热管换热器
1270
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条