建筑热能通风空调
建築熱能通風空調
건축열능통풍공조
BUILDING ENERGY & ENVIRONMENT
2012年
2期
82-85
,共4页
李远进%陈南海%王永全%曾鹏
李遠進%陳南海%王永全%曾鵬
리원진%진남해%왕영전%증붕
工艺性空调系统%消除再热%节能控制
工藝性空調繫統%消除再熱%節能控製
공예성공조계통%소제재열%절능공제
industrial air handling system%eliminating reheat%energy-saving control
本文针对卷烟厂工艺性空调系统为满足室内温湿度控制精度,在夏季除湿工况下通常需再热的特点,提出了一种通过变风量调节和主副表冷器独立控制消除再热的节能控制方案,并结合投入运行的实际工程测试数据分析,对所述的节能控制方案进行了验证。
本文針對捲煙廠工藝性空調繫統為滿足室內溫濕度控製精度,在夏季除濕工況下通常需再熱的特點,提齣瞭一種通過變風量調節和主副錶冷器獨立控製消除再熱的節能控製方案,併結閤投入運行的實際工程測試數據分析,對所述的節能控製方案進行瞭驗證。
본문침대권연엄공예성공조계통위만족실내온습도공제정도,재하계제습공황하통상수재열적특점,제출료일충통과변풍량조절화주부표랭기독립공제소제재열적절능공제방안,병결합투입운행적실제공정측시수거분석,대소술적절능공제방안진행료험증。
To meet the control accuracy of indoor temperature and humidity,the air after being dehumidified is required to be reheated in the industrial air handling system in summer.An energy-saving control solution is proposed to eliminate the reheat by Variable Air Volume(VAV) adjustment and controlling the cooling valves of the air surface cooler which is divided into two parts and controlled independently.The on-site operation test data is also analyzed and the energy-saving effect of this control solution is verified in the paper.