建筑热能通风空调
建築熱能通風空調
건축열능통풍공조
BUILDING ENERGY & ENVIRONMENT
2012年
6期
62-65,55
,共5页
热管%间接蒸发冷却%能耗
熱管%間接蒸髮冷卻%能耗
열관%간접증발냉각%능모
heat pipe%indirect evaporation cooling%energy consumption
以乌鲁木齐室外气象参数为例,在回收排风能量上,从水泵能耗和风机能耗两方面对热管式间接蒸发冷却方式和传统的间接蒸发冷却方式的能耗进行了分析。研究结果表明,在总能耗方面热管式间接蒸发冷却方式的总耗功率为间接蒸发冷却方式总耗功率的5%左右。
以烏魯木齊室外氣象參數為例,在迴收排風能量上,從水泵能耗和風機能耗兩方麵對熱管式間接蒸髮冷卻方式和傳統的間接蒸髮冷卻方式的能耗進行瞭分析。研究結果錶明,在總能耗方麵熱管式間接蒸髮冷卻方式的總耗功率為間接蒸髮冷卻方式總耗功率的5%左右。
이오로목제실외기상삼수위례,재회수배풍능량상,종수빙능모화풍궤능모량방면대열관식간접증발냉각방식화전통적간접증발냉각방식적능모진행료분석。연구결과표명,재총능모방면열관식간접증발냉각방식적총모공솔위간접증발냉각방식총모공솔적5%좌우。
Taking the outdoor meteorological parameter of Urumqi as an example, the article mvestlgateo me energy consumption of fan and water pump for recovering the energy of exhaust air between the conventional indirect evaporation cooling air conditioning system and the evaporative cooling air-conditioning system with heat pipe heat exchanger. The results showed that the power consumption required for the evaporative cooling aironditioning system with heat pipe heat exchanger was much less than the one required for the conventional indirect evaporation cooling air conditioning system and was about 5% of the total power consumption required for the conventional indirect evaporation cooling air conditioning system.
