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圆柱源综合修正模型 被引量:2

The Modified Integrated Cylindrical Source Model
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摘要 通过对地源热泵换热器地下竖直埋管非稳态传热分析,提出了针对回填材料的热阻修正因子,并引入了热短路修正方法对循环水平均温度进行修正,同时在综合考虑对Carslaw柱源模型已有修正的基础上,提出了圆柱源综合修正模型.通过计算结果与实验数据的比较,证明了修正模型的准确性,并进一步分析了回填土、等价半径、热流不均匀、热短路等因素对土壤热物性参数计算结果的影响. A thermal resistance correction factor aimed at the backfill material of the borehole was developed by analyzing the unsteady heat transfer of vertical embedded pipe for ground source heat pump,and the heat short-circuit modification was introduced to modify the mean temperature of the circulating water. Meanwhile,a cylindrical source integrated modified model was developed based on the modification of the existing Carslaw cylindrical source model.The accuracy of the modified model was proved by the comparison of the calculation result and the experimental one,and the influence of the backfill grout,the equivalent radius,thermal ununiformity and the heat short-circuit on the result was also further analysed.
作者 于新 连之伟 陈建萍 潘黎 王月梅
机构地区 上海交通大学制冷与低温研究所 上海市建筑科学研究院(集团)有限公司
出处 《上海交通大学学报》 EI CAS CSCD 北大核心 2010年第10期1337-1341,共5页 Journal of Shanghai Jiaotong University
基金 上海市科技攻关资助项目(07dz12019)
关键词 地源热泵 土壤 热物性 修正模型 ground-source heat pump soil thermal property modified model
分类号 TK52 [动力工程及工程热物理—热能工程]
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参考文献9

  • 1于明志,方肇洪,等.现场测量深层岩土热物性方法[J].工程热物理学报,2002,23(3):354-356. 被引量:58
  • 2Nagano K, Katsura T, Takeda S. Development of a design and performance prediction tool for the ground source heat pump system [J]. Thermal Engineering, 2006, 26 (14-15):1578-1592.
  • 3Ingersoll, L R, Plass, H J. Theory of the ground pipe heat source for the heat pump [J]. Heating, Piping and Air Conditioning, 1948, 20(7): 119-122.
  • 4Carslaw H S Jaeger. Conduction of heat in solids [M]. Oxford: Claremore Press,1947.
  • 5柳晓雷,王德林,方肇洪.垂直埋管地源热泵的圆柱面传热模型及简化计算[J].山东建筑工程学院学报,2001,16(1):47-51. 被引量:39
  • 6Lamarche L, Beauchamp B. New solutions for the short-time analysis of geothermal vertical horeholes [J]. Heat Mass Transfer, 2006, 50(7):1408-1419.
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二级参考文献11

  • 1[1]Sulatisky M T, G van der Kamp. Ground-Source Heat Pumps in the Canadian Prairies. ASHRAE Transactions,1991, 97(1): 374-385
  • 2[2]Cane R L D, Forgas D A. Modeling of Ground-Source Heat Pump Performance. ASHRAE Transactions, 1991,97(1): 909-925
  • 3[3]Bose, J E. Soil and Rock Classification for the Design of Ground-Coupled Heat Pump Systems-Field Manual, Epri CU-6600. Oklahoma: International Ground Source Heat Pump Association, 1989. 29-33
  • 4[4]Yu Mingzhi, Fang Zhaohong. The Influence of Soil Freezing on Heat Transfer of Geothermal Heat Exchangers. In:Proc. of the International Conference on Power Engineering. Xi'an: TUP and Springer, 2001. 1442-1449
  • 5[5]Deerman J D, Kavanaugh S P. Simulation of Vertical U-tube Ground Coupled Heat Pump Systems Using the Cylindrical Heat Source Solution. ASHRAE Transactions, 1991, 97(1): 287-295
  • 6[6]Yian Gu, Dennis L O'Neal. Development of an Equivalent Diameter Expression for Vertical U-Tube Used in Ground-Coupled Heat Pumps. ASHRAE Transactions 1998, 104(2): 347-55
  • 7[7]Kavanaugh S P. Field Tests for Ground Thermal Properties-Methods and Impact on Ground-Source Heat Pump Design. ASHRAE Transactions, 1992, 98(9): 607-615
  • 8蒋能照,等.空调用热泵技术及应用[M].北京:机械工业出版社,1991:10-20.
  • 9CaneRLD,ForgasDA.Modelingofground-sourceheatpumpperformance[C],ASHRAETransactionsm,1991:19-23.
  • 10CarslawHS.,JaegerJC.Conductionofheatinsolids[M].2ndedition,OxfordUniversityPress,1959.

共引文献92

同被引文献45

  • 1郭文超,董华,范波,李丽.基于神经网络的地下埋管换热器优化模型[J].太阳能学报,2010,31(6):738-742. 被引量:2
  • 2范蕊,马最良.地埋管换热器传热模型的回顾与改进[J].暖通空调,2006,36(4):25-29. 被引量:12
  • 3高青,李明,闫燕.地下群井换热强化与运行模式影响规律[J].太阳能学报,2006,27(1):83-89. 被引量:26
  • 4刁乃仁,方肇洪.地热换热器的传热问题研究及其工程应用[D].2004.10.
  • 5Zeng Heyi, Diao Nairen, Fang Zhaohong. Heat transfer analysis of boreholes in vertical ground heat exchangers [J]. International Journal of Heat and Mass Transfer, 2003, 4(46): 4467-4481.
  • 6Bandos Tatyana V, Montero Alvaro, Fernandez Esther. Finite line-source model for BHEs: Effect of vertical temperature variations [J]. Geothermics, 2009, 38 (6) : 263-270.
  • 7Diao Nairen, Fang Zhaohong. Heat transfer in ground heat exchangers with groundwater advection [J~. International Journal of Thermal Science, 2004, 43 (12): 1203-1211.
  • 8Raymond J, Therrien R, Gosselin L, et al. Numerical analysis of thermal response tests with a groundwater flow and heat transfer model[J]. Renewable Energy, 2011, 36 (4): 315-324.
  • 9Sutton M G, Nutter D W, Couvillion R J. A ground resistance for vertical borehole heat exchangers with groundwater flow [J ]. Energy Resource, 2003, 125 (3) : 183-189.
  • 10Diao Nairen, Cui Ping, Fang Zhaohong. The thermal resistance in a borehole of geothermal heat exchanger [R]. France: Proceeding of 12th International Heat Transfer Conference, 2002, 239-343.

引证文献2

二级引证文献8

上海交通大学学报
2010年 第10期

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