NUMERICAL SIMULATION ON HEAT TRANSFER CHARACTERISTICS OF SOIL AROUND U-TUBE UNDERGROUNDHEAT EXCHANGERS

机译：地下U型管地下换热器传热特性的数值模拟

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Temperature distribution in the soil around the underground heat exchangers are simulated by a two-dimensional model based on the column heat source theory, with the help of user interface tool-pdetool of matlab software. Through single-tube model, temperature distribution around heat exchangers and thermal radius under such conditions were got. In order to find out heat coupling effect among adjacent boreholes and temperature distribution in the soil, multiple boreholes were simulated on the basis of single-tube model, the coupling degree between tubes was got as well, from which , a concept( heat affected public area )is proposed. To eliminate or decrease the heat imbalance of heat emitted to soil in summer and absorbed from the soil in winter, water heater was added to the GSHP system. Experimental results of the hybrid system show the highest EER of the system could rise to 4.

机译：借助基于柱热源理论的二维模型，借助matlab软件的用户界面工具-pdetool，模拟了地下热交换器周围土壤中的温度分布。通过单管模型，得到了这种条件下换热器周围的温度分布和热半径。为了找出相邻钻孔之间的热耦合效应和土壤中的温度分布，在单管模型的基础上模拟了多个钻孔，得出了各管之间的耦合度，由此得出了一个概念（热影响公众）。建议）。为了消除或减少夏季散发到土壤的热量和冬季散发的热量的热量失衡，在GSHP系统中增加了热水器。混合系统的实验结果表明，该系统的最高EER可能升至4。

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来源
《International Refrigeration and Air Conditioning Conference at Purdue》|2008年|P.77-78|共2页
会议地点 West LafayetteIN(US)
作者
Weihua Yang; Shuhong Li; Xiaosong Zhang;
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作者单位

Purdue University. School of Mechanical Engineering.Ray W.Herrick Laboratories;

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关键词
GSHP; numerical simulation; u-pipe underground heat exchanger; coupling; water heater;

机译：地源热泵数值模拟U型管地下换热器；耦合;热水器;

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NUMERICAL SIMULATION ON HEAT TRANSFER CHARACTERISTICS OF SOIL AROUND U-TUBE UNDERGROUNDHEAT EXCHANGERS

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