山西建筑
山西建築
산서건축
SHANXI ARCHITECTURE
2014年
33期
112-114
,共3页
地源热泵系统%垂直U型地埋管换热器%模拟%ANSYS
地源熱泵繫統%垂直U型地埋管換熱器%模擬%ANSYS
지원열빙계통%수직U형지매관환열기%모의%ANSYS
Ground-Source Heat Pump%vertical U-tube underground heat exchanger%simulation%ANSYS
通过分析,建立了120 m深垂直U型埋管换热器及土壤温度场的数学模型,并就典型气候条件下换热器的换热性能及周围土壤温度场的变化情况进行了实测分析及数值模拟,为夏热冬冷地区地埋管换热器系统的设计、施工提供一定参考。
通過分析,建立瞭120 m深垂直U型埋管換熱器及土壤溫度場的數學模型,併就典型氣候條件下換熱器的換熱性能及週圍土壤溫度場的變化情況進行瞭實測分析及數值模擬,為夏熱鼕冷地區地埋管換熱器繫統的設計、施工提供一定參攷。
통과분석,건립료120 m심수직U형매관환열기급토양온도장적수학모형,병취전형기후조건하환열기적환열성능급주위토양온도장적변화정황진행료실측분석급수치모의,위하열동랭지구지매관환열기계통적설계、시공제공일정삼고。
A 120 meters vertical U-tube heat exchanger was theoretically analysed,the mathematic model of heat exchanger was established. It ex-perimentally studies heat transfer performance of the Ground Heat Exchange( GHE)and the surround temperature distribution under continuous operation modes in the typical climate. Last,the finite element analysis software ANSYS was used to simulate the long-time operation mode of the GHE,which affords reference to the construction of the GSHP system.
