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基于热平衡的复合式地埋管地源热泵系统运行策略 被引量:15

Operation strategies of hybrid ground-source heat pump system based on heat balance
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摘要 建立了冷却塔辅助地埋管地源热泵系统的仿真模型,分析了复合式系统不同设计方案的运行策略。结果表明:对于既有地埋管地源热泵系统,若已按夏季最大释热量设计地埋管长度,则可按热平衡需求选择冷却塔;对于新建复合式系统,可按冬季热负荷设计地埋管,按冷热负荷之差来选择冷却塔,当热泵机组进口水温超过26℃时开启辅助冷却塔;此外,采用热泵机组承担全部冬季热负荷和部分夏季冷负荷,而冷水机组+冷却塔作为夏季补充的方案也可以取得较优的运行效果。 Develops the simulation model of ground-source heat pump system assisted with cooling tower, analyses the operation strategies of different design schemes. Recommends to select the cooling tower according to heat balance for existed hybrid ground-source heat pump (HGSHP) system with ground heat exchanger designed by maximum heat release of summer, to select the cooling tower according to the difference of cooling and heating load for a new HGSHP system with ground heat exchanger designed by heating load of winter, operating the auxiliary cooling tower under entering water temperature of heat pump unit above 26 ~C, and that the favorable operation effect can be obtained when heat pump units afford the total heating load of winter and partial cooling load of summer assisted with water chiller and cooling tower in summer.
作者 花莉 范蕊 潘毅群 高岩 谢晓红
机构地区 同济大学建筑设计研究院(集团)有限公司 同济大学 北京建筑大学 中国二十冶集团有限公司
出处 《暖通空调》 北大核心 2013年第12期148-153,共6页 Heating Ventilating & Air Conditioning
基金 国家自然科学基金项目(编号:50806052) 供热供燃气通风及空调工程北京市重点实验室研究基金资助
关键词 复合式地埋管地源热泵系统 冷却塔辅助供冷 热平衡 运行策略 模型 节能 hybrid ground-source heat pump system, auxiliary tower cooling, heat balance, operation strategy, model, energy saving
分类号 TU831 [建筑科学—供热、供燃气、通风及空调工程]
  • 相关文献

参考文献14

  • 1花莉.复合式地源热泵系统土壤热平衡问题研究[D].上海:同济大学,2012.
  • 2花莉,潘毅群,范蕊,黄治钟.基于TRNSYS的土壤源热泵热平衡问题的影响因素分析[J].建筑节能,2012,40(3):23-29. 被引量:34
  • 3ASHRAE. Commercial/institutional ground-sourceheat pump engineering manual [ M], Atlanta :American Society of Heating, Refrigerating and Air-Conditioning Engineers ,1995.
  • 4Gilbreath C S. Hybrid ground-source heat pumpsystems for commercial applications [D]. Alabama :University of Alabama, 1996.
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  • 9Chiasson A D,Spitler J D,Hui Jin,et al. Optimalsizing of hybrid ground-source heat pump systemsthat use a cooling pond as a. supplemental heatrejecter~a system simulation approach [ G ] //ASHRAE Trans,2001,107(1):26 - 38.
  • 10孙培杰,王景刚,王惠想.辅助冷却复合地源热泵可行性及设计方法研究[J].建筑热能通风空调,2005,24(6):62-65. 被引量:10

二级参考文献15

  • 1丁勇,李百战,卢军,孙纯武,刘宪英.地源热泵系统地下埋管换热器设计(2)[J].暖通空调,2005,35(11):76-79. 被引量:35
  • 2朱汉宝,周亚素.地源热泵与风冷热泵的技术经济性能比较[J].可再生能源,2006,24(5):86-89. 被引量:16
  • 3於仲义,胡平放,王彬,袁旭东.混合式地源热泵系统优化设计[J].暖通空调,2007,37(9):105-109. 被引量:25
  • 4王华军,赵军.混合式地源热泵系统的运行控制策略研究[J].暖通空调,2007,37(9):131-134. 被引量:29
  • 5马最良 姚杨.民用建筑空调设计[M].北京:化学工业出版社,2002..
  • 6ASHRAE, Commercial/institutional ground source heat pumps engineering manual [M]. Atlanta: American Society of Heating,Refrigeration and Air-Conditioning Engineers, 1995.
  • 7S P Kavanaugh. A design method for hybrid ground-source heat pumps [J]. ASHRAE Transactions, 1999, 104(2): 691-698.
  • 8G Phetteplace, W Sullivan. Performance of a hybrid ground-coupled heat pump system [J]. ASHRAE Transactions,1998,104(1b): 763-770.
  • 9A D Chiasson, J D Spitler, S J Rees, et al. A model for simulating the performance of a shallow pond as a supplemental heat rejecter with closes loop ground source heat pump system [J], ASHRAE Transactions, 2000, 106(2): 107-121.
  • 10M Ramamoorthy, H Jin. Optimal sizing of hybrid ground-source heat pump systems that use a cooling pond as a supplemental heat rejecter-a system simulation approach [J]. ASHRAE Transactions,2001,107(1): 26-38.

共引文献42

同被引文献59

引证文献15

二级引证文献28

暖通空调
2013年 第12期

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