土木建筑与环境工程
土木建築與環境工程
토목건축여배경공정
Journal of Chongqing Jianzhu University
2015年
5期
122-128
,共7页
石沛%何叶从%傅俊萍%刘珊
石沛%何葉從%傅俊萍%劉珊
석패%하협종%부준평%류산
间接蒸发式冷却器%换热性能%布置方式%地铁
間接蒸髮式冷卻器%換熱性能%佈置方式%地鐵
간접증발식냉각기%환열성능%포치방식%지철
indirect evaporative cooler%heat transfer performance%arrangement%subway
为解决地铁站冷却塔设置难题,提出了一种采用低速电机驱动旋转布水装置的间接蒸发冷却器,在两种布置方式下,对其换热性能进行了单因素实验,并运用正交实验法对较优布置方式下影响换热器换热的因素进行了分析。结果表明:两种布置方式下,喷嘴与蒸发冷却器的间距、两组换热管束间距均存在最佳值,喷嘴双侧旋转布水优于单侧旋转布水;换热器平行气流布置且喷嘴双侧旋转布水为较优布置方式,此时,换热器换热量随喷水量、转速、空气速度、冷却水进口温度的增加以及喷水温度、空气温度的降低而增大,其中,冷却水进口温度对换热器换热影响最为显著,其他因素对其换热的影响从主到次顺序为:喷水量、空气温度、空气速度、喷水温度、转速、冷却水流量。
為解決地鐵站冷卻塔設置難題,提齣瞭一種採用低速電機驅動鏇轉佈水裝置的間接蒸髮冷卻器,在兩種佈置方式下,對其換熱性能進行瞭單因素實驗,併運用正交實驗法對較優佈置方式下影響換熱器換熱的因素進行瞭分析。結果錶明:兩種佈置方式下,噴嘴與蒸髮冷卻器的間距、兩組換熱管束間距均存在最佳值,噴嘴雙側鏇轉佈水優于單側鏇轉佈水;換熱器平行氣流佈置且噴嘴雙側鏇轉佈水為較優佈置方式,此時,換熱器換熱量隨噴水量、轉速、空氣速度、冷卻水進口溫度的增加以及噴水溫度、空氣溫度的降低而增大,其中,冷卻水進口溫度對換熱器換熱影響最為顯著,其他因素對其換熱的影響從主到次順序為:噴水量、空氣溫度、空氣速度、噴水溫度、轉速、冷卻水流量。
위해결지철참냉각탑설치난제,제출료일충채용저속전궤구동선전포수장치적간접증발냉각기,재량충포치방식하,대기환열성능진행료단인소실험,병운용정교실험법대교우포치방식하영향환열기환열적인소진행료분석。결과표명:량충포치방식하,분취여증발냉각기적간거、량조환열관속간거균존재최가치,분취쌍측선전포수우우단측선전포수;환열기평행기류포치차분취쌍측선전포수위교우포치방식,차시,환열기환열량수분수량、전속、공기속도、냉각수진구온도적증가이급분수온도、공기온도적강저이증대,기중,냉각수진구온도대환열기환열영향최위현저,기타인소대기환열적영향종주도차순서위:분수량、공기온도、공기속도、분수온도、전속、냉각수류량。
An indirect evaporative cooler installed with a rotary water distribution device which is driven by a low-speed motor,was proposed to solve the installation location problem of cooling tower in subway station.Single factor experimental method was used to investigate the heat transfer performance of indirect evaporative cooler under two types of arrangement.And under the optimal arrangement,the factors that affected the heat transfer performance were analyzed by orthogonal experimental method.The experimental results showed that the distance between nozzle and evaporative cooler and the distance between two sets of heat exchange coil under two types of arrangement both had optimal values.Rotating water on both sides was superior to rotating water on the one side.Heat exchanger arranged parallel to the air flow with nozzles rotating water on both sides was the better arrangement.And under this arrangement,heat exchange increased with the increase of spray water quantity,rotational speed,air velocity,cooling water flow rate and cooling water inlet temperature,and the decrease of spray temperature and air temperature. The cooling water inlet temperature had the most significant effect on heat transfer performance and other factors that affected the heat transfer performance from main to secondary were spray water quantity,air temperature,air velocity,spray temperature,rotational speed and cooling water flow rate.