摘要
热泵技术是当今建筑节能的重要技术之一,为了探究其实际的运行效果和节能减排量,对寒冷地区某办公建筑的污水源热泵系统进行研究,通过实地调研2016—2017年度冬季该系统运行性能的数据,分析了该污水源热泵系统在冬季的运行效果,并与冬季采用传统燃煤锅炉供暖方式进行比较,得到该系统供暖季的机组平均COP和系统平均EER分别为2.82和2.2,较传统燃煤锅炉供暖方式可以节省标煤260.8t,减少CO_2排放量为717.2t、SO_x排放量为1.04t、NO_x排放量为7.8t、粉尘量为5.2t。
Heat pump technology is one of the most important technologies for building energy conservation today. In order to explore its actual operation effect, energy saving and emission reduction, the sewage source heat pump system of an office building in the cold area is studied. Through field research on the system performance in the winter of 2016-2017, the operation effect of the sewage-source heat pump system in winter was analyzed, and compared with the traditional coal-fired boiler heating method in winter. The average COP and EER of the system in heating season are 2.82 and 2.2, respectively. It compares with the traditional coal-fired boiler heating mode, the system can save 260.8 t of standard coal, 717.2 t of CO_2 emission, 1.04 t of SO_x emission, 7.8 t of NOx emission and 5.2 t of dust emission.
引文
[1]国家统计局.中国统计年鉴2016[M].北京:中国统计出版社,2016.
[2]邓琴琴,宋波,胡月波.公共机构绿色改造成套技术研究与工具开发[A].北京:中国建筑科学研究院,1673-7237(2016)12-0084-04.
[3]兰兵.中美建筑节能设计标准比较研究[D].华中科技大学,2014.
[4]Hepbasli,Arif,Biyik,Emrah,Ekren,Orhan.A key review of wastewater source heat pump(WSHP)systems[J].Energy Conversion and Management.2014:700-722.
[5]WOJTAN L,BURKHALTER F.Challenges and recent developments in applications with largescale heat pumps.IEA Heat Pump Conference.Montreal(Quebec)Canada,2014:1-14.
[6]付国栋,陈爱露,姜益强等.国内规模最大再生(海)水源热泵系统运行状况分析[J].建筑科学,2009,25(10):93-97.
[7]贾欣,端木琳,舒海文等.黄海北部海水源热泵供热和供冷系统实测[J].制冷学报,2014,35(6):42-46.
[8]中国建筑科学研究院.GB/T50189-2015,公共建筑节能设计标准[S].北京:中国建筑工业出版社,2015.8.
[9]全国冷冻空调设备标准化技术委员会.GB/T19409-2013,水源热泵机组[S].北京:中国标准出版社,2013.3.
[10]中国建筑科学研究院.GB/T1883-2002,室内空气质量标准[S].北京:中国标准出版社,2002.
[11]中国建筑科学研究院.民用建筑供暖通风与空气调节设计规范(GB50736-2012)[S].北京:中国建筑工业出版社,2012.
[12]钱剑锋,孙德兴,季阿敏等.直接式污水源热泵系统节能与环保性能分析[A].中国制冷学会2009年学术年会论文集[C].天津:中国制冷学会,2009.