建筑节能
建築節能
건축절능
CONSTRUCTION CONSERVES ENERGY
2014年
4期
16-19
,共4页
高级氧化技术%冷水机组%节能%能效比
高級氧化技術%冷水機組%節能%能效比
고급양화기술%랭수궤조%절능%능효비
advanced oxidation process technology%water chilling unit%energy conservation%EER(en-ergy efficiency ratio)
冷水机组冷凝器结垢严重将导致传热性能急剧下降,进而引起机组能耗增加,不利于节能环保。现通过使用高级氧化技术(AOP)可以有效解决冷水机组内的结垢问题,使机组维持在高效的运行状态。通过对实际使用中带AOP装置的冷水机组进行现场测试,并对测试数据进行计算处理分析,进而得出使用AOP处理装置后冷凝器结垢减轻,同时,可对冷水机组进行定量节能效果分析。
冷水機組冷凝器結垢嚴重將導緻傳熱性能急劇下降,進而引起機組能耗增加,不利于節能環保。現通過使用高級氧化技術(AOP)可以有效解決冷水機組內的結垢問題,使機組維持在高效的運行狀態。通過對實際使用中帶AOP裝置的冷水機組進行現場測試,併對測試數據進行計算處理分析,進而得齣使用AOP處理裝置後冷凝器結垢減輕,同時,可對冷水機組進行定量節能效果分析。
랭수궤조냉응기결구엄중장도치전열성능급극하강,진이인기궤조능모증가,불리우절능배보。현통과사용고급양화기술(AOP)가이유효해결랭수궤조내적결구문제,사궤조유지재고효적운행상태。통과대실제사용중대AOP장치적랭수궤조진행현장측시,병대측시수거진행계산처리분석,진이득출사용AOP처리장치후냉응기결구감경,동시,가대랭수궤조진행정량절능효과분석。
The heat transfer performance will decrease sharply for the serious fouling in water chiller condenser, as to increase the energy consumption which is not conducive to energy conservation and envi-ronmental protection. Now through the advanced oxidation process (AOP) can effectively solve the problem of scaling within the chiller and keep the unit in efficient running state. The water chiller with AOP device is tested on site, analyzing the test data. Then it is concluded that the condenser fouling is eased by AOP. Meanwhile, the energy saving effect of water chiller can be analyzed quantitatively.
