Evaluating heat transfer models of ground heat exchangers with multi-boreholes based on dynamic loads

doi:10.3969/j.issn.0438-1157.2014.03.018

Abstract

Abstract: The comparison of the infinite line source model, finite line source model (FLS) and moving finite line source model (MFLS) of borehole heat exchangers (BHEs) shows that the axial effects and groundwater flow have some effects on BHEs. Based on the temperature superposition principle and dynamic loads, the heat transfer models for multi-boreholes are established, combined with typical annual dynamic load model, the long-term multi-borehole heat transfer is analyzed with FLS and MFLS. The results show that the center temperature of BHEs fields calculated with FLS increases fast and heat exchanger capacity attenuation should be taken into account for a long-term running. With MFLS, reasonable optimization strategy should be used to avoid fast increase of downstream soil temperature, and stable heat transfer ability should be adopted for design to prevent inadequate capacity of late runtime. The temperature rise at typical points in BHEs filed with three-day dynamic loads shows that the operation adjustment could significantly alleviate soil temperature rise and especially reduce the heat accumulation in downstream tubes, which is very good for recovery of soil heat exchanger capacity.

Key words: multi-boreholes, dynamic load, soil temperature field, heat transfer, model

摘要： 对比分析了地埋管换热器的无限长线热源、有限长线热源和渗流有限长线热源模型，指出轴向传热和地下水渗流作用对地埋管换热具有不可忽略的影响；基于温度场叠加原理和动态负荷建立了地埋管管群换热模型，借助于典型年动态年负荷模型，分析了管群长期动态换热特性。结果表明，无渗流型管群中心温度升高过快，长期运行应考虑土壤换热能力的衰减；对于渗流型管群换热，应采取合理优化策略避免下游土壤温升过快，并且设计埋管时应采用其进入稳定期的换热能力，避免长期运行时换热能力不足。对3种日负荷动态运行模式下管群的典型点温度变化进行了对比分析，结果表明，运行模式调节可以减缓土壤温度的上升趋势，特别是可减少渗流型管群的下游热量堆积，有利于土壤换热能力的恢复。

关键词: 地埋管管群, 动态负荷 , 土壤温度场, 传热, 模型

CLC Number:

TU831.2

LI Yong, MAO Jinfeng, GENG Shibin, ZHANG Hua, HAN Xu. Evaluating heat transfer models of ground heat exchangers with multi-boreholes based on dynamic loads[J]. CIESC Journal, 2014, 65(3): 890-897.

李永, 茅靳丰, 耿世彬, 张华, 韩旭. 基于动态负荷的地埋管管群换热模型对比分析[J]. 化工学报, 2014, 65(3): 890-897.

References 24

[1]	Ingersoll L, Zobel O, Ingersoll A. Heat Conduction with Engineering, Geological and Other Applications[M]. New York: McGraw-Hill, 1954
[2]	Yavuzturk C, Spitler J. A short time step response factor model for vertical ground loop heat exchangers[J]. ASHRAE Transactions,1999, 105(2):475-485
[3]	Rottmayer S, Beckman W, Mitchell J. Simulation of a single vertical U-tube ground heat exchanger in an infinite medium[J]. ASHRAE Transactions, 1997, 103(2):651-659
[4]	Yavuzturk C, Spitler J, Ree S. A transient two-dimensional finite volume model for the simulation of vertical U-tube ground heat exchangers[J] ASHRAE Transactions, 1999, 105(2): 465-474
[5]	Long Hui(龙会),Yu Yuejin(余跃进),Feng Zhouquan(封周权). Three-dimensional temperature field simulation of ground heat exchangers with groundwater flow[J]. Acta Energiae Solaris Sinica (太阳能学报),2011, 32(6):862-867
[6]	Li Dapeng(李大鹏),Liao Shengming(廖胜明). 3-D numerical simulation and heat transfer analysis for U-tube ground heat exchanger[J]. HV&AC (暖通空调), 2008, 38(12):14-18
[7]	Stefano Lazzari, Antonella Priarone, Enzo Zanchini. Long-term performance of BHE (borehole heat exchanger) fields with negligible groundwater movement[J]. Energy, 2010, 35(6): 4966-4974
[8]	Jongchan Kim, Youngmin Lee, Woon Sang Yoon, Jae Soo Jeon. Numerical modeling of aquifer thermal energy storage system[J]. Energy, 2010, 35(4): 4955-4965
[9]	Gao Qing(高青), Qiao Guang(乔广), Yu Ming(于鸣). Ground temperature property restorative characteristics enhance heat transfer in GSHP[J]. Refrigeration (制冷学报), 2003(3):37-40
[10]	Kadir Bakirci. Evaluation of the performance of a ground-source heat-pump system with series GHE (ground heat exchanger) in the cold climate region[J]. Energy,2010, 35(4): 3088-3096
[11]	Jalaluddin Akio Miyara. Thermal performance investigation of several types of vertical ground heat exchangers with different operation mode[J]. Applied Thermal Engineering,2012, 33:167-174
[12]	Jozsef Hecht-Méndez, Michael de Paly, Markus Beck, Peter Bayer. Optimization of energy extraction for vertical closed-loop geothermal systems considering groundwater flow[J]. Energy Conversion and Management, 2013, 66(1): 1-10
[13]	Gao Qing(高青), Li Ming(李明), Yan Yan(闫燕). Operation strategy on heat transfer enhancement in the underground multi-boreholes[J]. Acta Energiae Solaris Sinice (太阳能学报),2006, 27(1):83-88
[14]	Marcotte D, Pasquier P, Sheriff F, Bernier M. The importance of axial effects for borehole design of geothermal heat-pump systems[J]. Renewable Energy, 2010, 35:763-770
[15]	Tatyana V Bandos, Alvaro Montero, Esther Fernandez. Finite line-source model for borehole heat exchangers effect of vertical temperature variations[J]. Geothermics, 2009 (38): 263-270
[16]	Nelson Molina-Giraldo, Peter Bayer, Philipp Blum. Evaluating the influence of thermal dispersion on temperature plumes from geothermal systems using analytical solutions[J]. International Journal of Thermal Sciences,2011, 34(5): 1-9
[17]	Zeng H, Diao N, Fang Z. A finite line-source model for boreholes in geothermal heat exchangers[J]. Heat Transfer Asian Research, 2002(31):558-567
[18]	Fujii H, Itoi R, Fujii J, Uchida Y. Optimizing the design of large-scale ground-coupled heat pump systems using groundwater and heat transport modeling[J]. Geothermics, 2005, 34(3):347-364
[19]	Fan R, Jiang Y, Yao Y, Shiming D, Ma Z. A study on the performance of a geothermal heat exchanger under coupled heat conduction and groundwater advection[J]. Energy, 2007, 32(11): 2199-2209
[20]	Nelson Molina-Giraldo, Philipp Blum, Ke Zhua, Peter Bayer, Zhaohong Fang. A moving finite line source model to simulate borehole heat exchangers with groundwater advection[J]. International Journal of Thermal Sciences, 2011, 50: 2506-2513
[12]	Philippe M, Bernier M, Marchio D. Validity ranges of three analytical solutions to heat transfer in the vicinity of single boreholes[J]. Geothermics, 2009, 38(4):407-413
[22]	Marco Fossa. The temperature penalty approach to the design of borehole heat exchangers for heat pump applications[J]. Energy and Buildings,2011, 43:1473-1479
[23]	Yang Weibo(杨卫波), Shi Mingheng(施明恒). Study on heat transfer model of vertical U-tube ground heat exchangers based on line heat source theory[J] Acta Energiae Solaris Sinice (太阳能学报), 2007, 28(5):482-485
[24]	Marcotte D, Pasquier P. On the estimation of thermal resistance in borehole thermal conductivity test[J]. Renewable Energy, 2008(33): 2407-2415