流体机械
流體機械
류체궤계
FLUID MACHINERY
2014年
11期
63-67
,共5页
陈慧%韩东太%王友成%胡修猛
陳慧%韓東太%王友成%鬍脩猛
진혜%한동태%왕우성%호수맹
毛细管%温湿度%重力循环柜%换热%除湿
毛細管%溫濕度%重力循環櫃%換熱%除濕
모세관%온습도%중력순배거%환열%제습
capillary%temperature and humidity%gravity circulation cabinet%heat transfer%dehumidification
以能源与动力工程实验中心节能减排实验室为背景,对毛细管空调系统进行制冷及除湿实验。监测室内温湿度在水平和垂直方向上的温湿度分布情况;并且通过实验确定毛细管重力循环空调柜除湿和换热性能的影响因素及其最佳运行工况。结果表明:在人体的高度范围1.6~2.0m之间,室内温度维持在26.5℃左右,对人体非常适宜;供水流量在600~700L/h,供水温度在17.5~18℃时,进出口空气温差增长的速度最快,重力循环空调柜换热经济性最佳;供水流量在500~600L/h,供水温度在15.5~16℃时,出口空气流速增长的速度最快,重力循环空调柜除湿经济性最佳。
以能源與動力工程實驗中心節能減排實驗室為揹景,對毛細管空調繫統進行製冷及除濕實驗。鑑測室內溫濕度在水平和垂直方嚮上的溫濕度分佈情況;併且通過實驗確定毛細管重力循環空調櫃除濕和換熱性能的影響因素及其最佳運行工況。結果錶明:在人體的高度範圍1.6~2.0m之間,室內溫度維持在26.5℃左右,對人體非常適宜;供水流量在600~700L/h,供水溫度在17.5~18℃時,進齣口空氣溫差增長的速度最快,重力循環空調櫃換熱經濟性最佳;供水流量在500~600L/h,供水溫度在15.5~16℃時,齣口空氣流速增長的速度最快,重力循環空調櫃除濕經濟性最佳。
이능원여동력공정실험중심절능감배실험실위배경,대모세관공조계통진행제랭급제습실험。감측실내온습도재수평화수직방향상적온습도분포정황;병차통과실험학정모세관중력순배공조거제습화환열성능적영향인소급기최가운행공황。결과표명:재인체적고도범위1.6~2.0m지간,실내온도유지재26.5℃좌우,대인체비상괄의;공수류량재600~700L/h,공수온도재17.5~18℃시,진출구공기온차증장적속도최쾌,중력순배공조거환열경제성최가;공수류량재500~600L/h,공수온도재15.5~16℃시,출구공기류속증장적속도최쾌,중력순배공조거제습경제성최가。
The background is energy conservation laboratory of Energy and Power Engineering Experimental Center in the Uni-versity ofmining and technology.Conduct cooling and dehumidification experiments bymonitoring the indoor temperature and hu-midity in the horizontal and vertical.Determine the influence factors and optimal operating conditions of the capillary gravity cabi-net dehumidification and heat transfer performance.The experimental results show that in the height range 1.6~2.0m,indoor temperature is very suitable to the human bodymaintained at about 26.5℃,When water flow rate in 600~700 L/h and tempera-ture at 17.5~18℃,air temperatures difference of inlet and outlet have the speediest growth rate and the cabinet has the best e-conomy in heat transfer.When water flow rate in 500~600 L/h and temperature at 15.5~16℃,outlet experiencing the fastest growth in air velocity and the cabinet has the best economy in dehumidification.