建筑热能通风空调
建築熱能通風空調
건축열능통풍공조
BUILDING ENERGY & ENVIRONMENT
2011年
5期
10-13
,共4页
直流变频%热泵热水器%压缩机频率%电子膨胀阀开度%出水流量
直流變頻%熱泵熱水器%壓縮機頻率%電子膨脹閥開度%齣水流量
직류변빈%열빙열수기%압축궤빈솔%전자팽창벌개도%출수류량
direct-current variable frequency%heat pump water heater%compressor frequency%electronic expansion valve opening%outlet water flow
对R410a直流变频热泵热水器系统性能的影响因素进行了试验研究。结果发现:环境温度、进水温度不变时,在相同的水温温升区间内,压缩机以较高频率运行,膨胀阀保持相应的开度时,可以使系统的加热时间最短,耗电量最低。同时为了降低排气压力,随水温升高,压缩机频率应随之降低,电子膨胀阀应增大开度。另外,在环境温度22℃、进水温度20℃时,保持出水温度55℃以上,出水流量从1.8L/min增加到3.8L/min,系统制热量和COP随之增高,而且出水流量只有在3.0~4.0L/min时,系统才有最高的COP值,保持在4.0以上。
對R410a直流變頻熱泵熱水器繫統性能的影響因素進行瞭試驗研究。結果髮現:環境溫度、進水溫度不變時,在相同的水溫溫升區間內,壓縮機以較高頻率運行,膨脹閥保持相應的開度時,可以使繫統的加熱時間最短,耗電量最低。同時為瞭降低排氣壓力,隨水溫升高,壓縮機頻率應隨之降低,電子膨脹閥應增大開度。另外,在環境溫度22℃、進水溫度20℃時,保持齣水溫度55℃以上,齣水流量從1.8L/min增加到3.8L/min,繫統製熱量和COP隨之增高,而且齣水流量隻有在3.0~4.0L/min時,繫統纔有最高的COP值,保持在4.0以上。
대R410a직류변빈열빙열수기계통성능적영향인소진행료시험연구。결과발현:배경온도、진수온도불변시,재상동적수온온승구간내,압축궤이교고빈솔운행,팽창벌보지상응적개도시,가이사계통적가열시간최단,모전량최저。동시위료강저배기압력,수수온승고,압축궤빈솔응수지강저,전자팽창벌응증대개도。령외,재배경온도22℃、진수온도20℃시,보지출수온도55℃이상,출수류량종1.8L/min증가도3.8L/min,계통제열량화COP수지증고,이차출수류량지유재3.0~4.0L/min시,계통재유최고적COP치,보지재4.0이상。
In this paper, performance factors of a R410a direct-current variable frequency heat pump water heater are experimentally studied. It is found that when ambient temperature and inlet water temperature are constant, compressor is worked at higher frequency and Electric Expansion Valve (EEV) is kept at a corresponding opening, the shortest heating time and the least power consumption of the system can be got at the same range of water temperature rise. At the same time, in order to reduce discharge pressure, compressor frequency should be reduced and EEV opening should be increased with water temperature increasing. In addition, at ambient temperature22℃ and inlet water temperature 20℃, outlet water temperature is kept above 55℃, When the outlet water flow is increased from 1.8L/min to 3.8L/min, the heat capacity and COP of the system are improved corresponding. And only when the outlet water flow is between 3.0 L/min and 4.0 L/min, the COP of the system can be achieved the maximum value and kept above 4.0.