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Author(s): |
Chenghu Zhang, School of municipal and environment engineering, Harbin institute of technology, Harbin 150090,China
Fang Ma, School of municipal and environment engineering, Harbin institute of technology, Harbin 150090,China
Dexing Sun, School of municipal and environment engineering, Harbin institute of technology, Harbin 150090,China
Shan Qiu, School of municipal and environment engineering, Harbin institute of technology, Harbin 150090,China |
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Abstract: |
Energy delivering pipes which are buried in the ground will change the surrounding temperature field accompanied by energy loss. This paper established the two-dimensional temperature field mathematical model of the soil around the underground burying pipes, and simplified the third order boundary condition as the first kind of boundary condition by adopting the hypothesized surface law. Besides, it solved the temperature field of the soil around the underground burying pipes by adopting the principle of superposition, the variable resolution and the hypothesized heat source law, and has further analyzed the heat transfer process of the underground burying pipes under the effect of double heat source of the atmospheric and the soil stratosphere, as well as the fluid temperature field along pipes. This paper provides thermal reference for engineering design of underground buried pipes.
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