[1]储国成,余跃进,蔡宗良.地源热泵不同运行模式埋管进出口温度模拟及实验验证[J].南京师范大学学报(工程技术版),2008,08(03):030-34.
 Chu Guocheng,Yu Yuejin,Cai Zongliang.Experimental Research and Simulation on Inlet and Outlet Water Temperatures of Borehole for Ground Source Heat Pump With Different Operation Modes[J].Journal of Nanjing Normal University(Engineering and Technology),2008,08(03):030-34.
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地源热泵不同运行模式埋管进出口温度模拟及实验验证
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南京师范大学学报(工程技术版)[ISSN:1006-6977/CN:61-1281/TN]

卷:
08卷
期数:
2008年03期
页码:
030-34
栏目:
出版日期:
2008-09-30

文章信息/Info

Title:
Experimental Research and Simulation on Inlet and Outlet Water Temperatures of Borehole for Ground Source Heat Pump With Different Operation Modes
作者:
储国成1 余跃进1 蔡宗良2
1. 南京师范大学动力工程学院, 江苏南京210042; 2. 南京民用建筑设计院有限责任公司, 江苏南京210004
Author(s):
Chu Guocheng1Yu Yuejin1Cai Zongliang2
1.School of Power Engineering,Nanjing Normal University,Nanjing 210042,China;2.Nanjing Design Institute of Civil Architecture LTD.CO.,Nanjing 210004,China
关键词:
地源热泵 不同运行模式 埋管进出口温度 脉冲热流 实验验证
Keywords:
ground source heat pump ( GSHP) d ifferen t opera tion m odes in let and outlet w ater temperatu res o f the boreho le heat pu lse va lidated by exper iment m ethod
分类号:
TU831
摘要:
目前地源热泵在中国已大规模应用,但如何在使用地源热泵中节能仍需研究.不同的建筑,地源热泵运行的模式不同.从地源热泵连续、间歇运行两种模式进行分析,得出不同运行模式影响埋管的进出口温度,进出口温差对地埋管的换热有很大影响.建立了地源热泵不同运行模式的实验模型,并采用实验方法进行验证,将模拟的结果与实验测试的数据进行比较,证明了模拟的实用性,对工程实际应用有一定的帮助.
Abstract:
A t present, the ground source heat pum p is w ide ly used in Ch ina, but how to save ene rgy sou rce by using GSHP should be investigated. There are som e d ifferent opera tion modes to different arch itectures. The continuous operation and interm ittent operation are analyzed in th is paper, The in let& outlet w ater tem pera tures o f the borehole were influenced by d ifferent opera tion modes of GSH P. So is the heat transfe r capability. The expe rim en talm odes about the d i-f ferent opera tion m odes have been estab lished and va lidated by experim ent m e thod and com pa red w ith the result and dates. It proves the utility o f sim ulation and g ives som e help to the practical use o f the project

参考文献/References:

[ 1] 吕灿仁, 马一太. 运用热泵提高低温地热采暖系统能源利用率的分析[ J]. 天津大学学报, 1982( 4): 1-8.
Lv Chanren. M aY ita i. Improve the use of low-temperature geo therm a l heat pump heating system of energy e fficiency[ J]. Journal o f T ianjing Un iversity, 1982( 4): 1-8. ( in Ch inese)
[ 2] Ingerso ll L R, Plass H J. Theory of the g round p ipe heat source fo r the heat pum p[ J] . HPAC, 1948, 20( 7): 119-122.
[ 3] 崔萍, 刁乃仁, 方肇洪. 地热换热器间歇运行工况分析[ J] . 山东建筑工程学院学报, 2001( 4): 52-56.
Cui P ing, D iao Na iren, Fang Zhaohong. D iscontinuous operation of gerthm erm a l heat ex changers[ J]. Journal of Shandong Institute of A rchitec ture and Eng ineer ing, 2001( 4): 52-56. ( in Ch inese)
[ 4] Fang Z H, D iaoN R, Cui P. D iscontinuous operation of gerthm erm a l hea t exchangers[ J]. T singhua Science and Techno logy, 2002, 7( 2) : 194-197.
[ 5] 刘宪英. 地热源热泵冬夏暖冷联供试验研究[ J] . 水利电力施工机械, 2000, 30( 4): 1-4.
Liu X iany ing. W arm and cold for the pilo t study in w inter and summ er o f the ground source hea t pump[ J]. W a ter Powe rConstructionM ach inery, 2000, 30( 4): 1-4. ( in Chinese)
[ 6] A rif H, Ozay A. Exper im enta l study o f a c losed loop vertica l ground source heat pum p system [ J]. Energy Conversion and M anagem ent, 2003, 44: 527-548.

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备注/Memo

备注/Memo:
基金项目: 江苏省建设厅资助项目.
通讯联系人: 余跃进, 教授, 研究方向: 建筑节能. E-m ail:d lkj@n jnu. edu. cn
更新日期/Last Update: 2013-04-24