湖南工业大学学报
湖南工業大學學報
호남공업대학학보
Journal of Hunan University of Technology
2015年
5期
1-4
,共4页
谭超毅%胡海华%张超%刘少杰
譚超毅%鬍海華%張超%劉少傑
담초의%호해화%장초%류소걸
地源热泵%水冷多联机%风冷多联机%温湿度独立调节系统%综合能效比
地源熱泵%水冷多聯機%風冷多聯機%溫濕度獨立調節繫統%綜閤能效比
지원열빙%수랭다련궤%풍랭다련궤%온습도독립조절계통%종합능효비
ground-sourced heat pump%water cooling VRV%wind cooling VRV%independent temperature and humidity control system%integrated energy efficiency ratio
对地源热泵+水冷多联机温湿度独立调节系统和地源热泵+风冷多联机温湿度独立调节系统2种方案的间歇运行方式和连续运行方式的综合能效比进行分析与计算,结果表明:潜热和新风负荷越小,系统的综合能效比越高,随着潜热和新风负荷的增大,系统的综合能效比下降;地源热泵+水冷多联机温湿度独立调节系统间歇运行方式比连续运行方式的综合能效比更高;在实际工程中,常见的地源热泵+水冷多联机温湿度独立调节系统比地源热泵+风冷多联机温湿度独立调节系统的综合能效比高近1.4倍;地源热泵+风冷多联机温湿度独立调节系统中,当潜热和新风负荷超过40%后,不管是间歇运行方式还是连续运行方式,其综合能效比都较接近,说明该系统对运行方式要求不高。
對地源熱泵+水冷多聯機溫濕度獨立調節繫統和地源熱泵+風冷多聯機溫濕度獨立調節繫統2種方案的間歇運行方式和連續運行方式的綜閤能效比進行分析與計算,結果錶明:潛熱和新風負荷越小,繫統的綜閤能效比越高,隨著潛熱和新風負荷的增大,繫統的綜閤能效比下降;地源熱泵+水冷多聯機溫濕度獨立調節繫統間歇運行方式比連續運行方式的綜閤能效比更高;在實際工程中,常見的地源熱泵+水冷多聯機溫濕度獨立調節繫統比地源熱泵+風冷多聯機溫濕度獨立調節繫統的綜閤能效比高近1.4倍;地源熱泵+風冷多聯機溫濕度獨立調節繫統中,噹潛熱和新風負荷超過40%後,不管是間歇運行方式還是連續運行方式,其綜閤能效比都較接近,說明該繫統對運行方式要求不高。
대지원열빙+수랭다련궤온습도독립조절계통화지원열빙+풍랭다련궤온습도독립조절계통2충방안적간헐운행방식화련속운행방식적종합능효비진행분석여계산,결과표명:잠열화신풍부하월소,계통적종합능효비월고,수착잠열화신풍부하적증대,계통적종합능효비하강;지원열빙+수랭다련궤온습도독립조절계통간헐운행방식비련속운행방식적종합능효비경고;재실제공정중,상견적지원열빙+수랭다련궤온습도독립조절계통비지원열빙+풍랭다련궤온습도독립조절계통적종합능효비고근1.4배;지원열빙+풍랭다련궤온습도독립조절계통중,당잠열화신풍부하초과40%후,불관시간헐운행방식환시련속운행방식,기종합능효비도교접근,설명해계통대운행방식요구불고。
Analyzes and calculates the comprehensive energy ratios of intermittent operating mode and continuous operating mode for independent temperature and humidity control systems of GSHP - water cooling VRV and GSHP - wind cooling VRV. The results show that: The smaller the latent heat and fresh air load, the higher the integrated energy efficiency ratio will be, with the latent heat and fresh air load increasing, the system integrated energy efficiency ratio decreased. The integrated energy efficiency ratio of intermittent operating mode is higher than that of continuous operating mode for GSHP-water cooling VRV system. In practical engineering, the integrated energy efficiency ratio of common GSHP - water cooling VRV independent control system is 1.4 times higher than that of GSHP- wind cooling VRV system. When the latent heat and fresh air load is over 40% in GSHP-wind cooling RVR system, the integrated energy efficiency ratios of intermittent operating mode and continuous operating mode are similar, indicating that the system has little demand in operating modes.