Presents the calculating method of ground heat exchanger in the ground-source heat pump system.
介绍了该别墅地埋管地源热泵空调系统中地埋管换热器的计算方法。
The heat transfer performance test of ground heat exchanger was presented and compared with thermal response test.
阐述了地源热泵地埋管传热性能的测试原理,并与热响应测试原理相对比。
The building is equipped with mechanical ventilation heat recovery, a ground heat exchanger and a wall air intake grill.
建筑配备机械通风热回收、地热换热器和进风格栅墙。
To perfect heat-transfer model for ground heat exchanger is one of key problems about GSHP popularization and application.
提出内热源型埋地换热器理论模型,建立换热器周围土壤热湿传递物理数学模型。
The importance of the balance of heat absorption and heat-removal in the operation of the HGSHP's ground heat exchanger was pointed out.
混合式地源热泵在工程应用时,主要作用之一是维持地埋管换热器的全年热平衡。
The mathematical model presented here may provide design guidance for the design of underground heat exchanger for ground source heat pumps.
所建立的数学模型可为土壤热源热泵地下热交换器的设计提供参考。
It is very important to determine the heat transfer between ground heat exchanger and surrounding soil for a closed ground source heat pump.
闭环埋地换热器与周围土壤和岩石层的热量交换速率是闭环地源热泵系统设计和成功运行的关键。
The paper discussed the variables of ground heat exchanger and heat pump system, and determined the selection principles of optimization variables.
讨论了埋管换热器优化变量和热泵系统型式优化变量,确定优化变量的选取原则。
The ground heat exchanger is an important component of the ground Coupled heat Pump (GCHP) and the U-tube is most commonly used ground heat exchanger.
地下换热器是地源热泵的重要组成部分,竖直u型管是最常见的地下换热器形式。
Based on the annual thermal equilibrium of ground heat exchanger in different buildings, control methods and controls parameter were analyzed by HGSHP experiment.
结合具体混合式地源热泵实验,分析出基于全年地埋管换热器“热平衡”的不同类型建筑应用混合式地源热泵时的控制方法和控制参数。
Ground heat exchanger is an important component of the ground Coupled heat Pump (GCHP) system and a single U-tube is the most common type of ground heat exchanger.
地下换热器是地源热泵系统重要的组成部分,单u型管是当前广泛使用的地下换热器形式。
The conception for the cost of heat transfer which can use to evaluate the economic of ground heat exchanger was presented and its specific formula is deduced in the article.
文中提出了地下换热器的换热成本的概念,用于地下换热器经济性的评估,并推导出来具体的计算式。
The model of HyGSHPs and traditional GSHPs are built up using program with the ground heat exchanger, supplemental heat rejecter system and the unit model according to various control methods.
以地埋管换热器、辅助散热系统和热泵机组模型依据不同控制方法编程组合成水源辅助散热的复合地源热泵系统和传统地源热泵系统模型。
The result proves that the short time step model can be used to predict heat exchange performance of the underground heat exchanger and to design and optimize a ground source heat pump system.
结果表明,短时间步温度反应系数模型可以较好地预测埋地换热器的换热性能,为地源热泵系统的设计与优化提供了依据。
Taking the double-U type ground heat exchanger (GHE) as example, performs in-situ thermal response tests in three different seasons, and the results show that there does exist the seasonal effect.
实验结果表明,在地埋管换热器地下热响应实验中存在着季节效应。
Geothermal Heat Exchanger is a key component in Ground-Coupled Heat Pump systems, but a length calculation method of convenient, correct and suitable for applications does not exist.
地埋管换热器是地埋管地源热泵系统的核心组件,但至今其长度计算尚无一种便捷、正确又易于应用的方法。
Taking the hybrid ground source heat pump with cooling tower as research object, a simplified calculation model of buried tube heat exchanger is established.
以配置冷却塔的复合式土壤源热泵为研究对象,建立了地埋管换热器简化计算模型。
The main heating source for the house is a 150 metres deep ground source borehole connecting to a heat exchanger which feeds under-floor heating.
住宅的主要热源是一个150米深的地源钻孔,连接到一个以地下热为主的热交换器。
The three-dimensional numerical model of the vertical borehole heat exchanger of ground source heat pump was established and the accuracy of numerical model was verified in this paper.
以地源热泵垂直埋管换热器为研究对象,建立地源热泵垂直埋管换热器的三维数值模型,通过实验对数值模型进行验证。
Base on several common U-tube heat transfer models of ground source heat pump, this paper proposes a transient heat transfer model for single U-tube vertical heat exchanger.
介绍了几种常见土壤源热泵u型埋管换热器传热模型,建立了单u型垂直埋管换热器的非稳态传热模型。
Base on several common U-tube heat transfer models of ground source heat pump, this paper proposes a transient heat transfer model for single U-tube vertical heat exchanger.
介绍了几种常见土壤源热泵u型埋管换热器传热模型,建立了单u型垂直埋管换热器的非稳态传热模型。
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