土壤源热泵是一种环保节能的绿色空调技术。
Ground-source heat pump is a kind of green-conditioning technology, with does no harm to the environment.
该理论模型可应用于土壤源热泵系统的分析和设计中。
The theoretical model can be applied to the design and analysis of soil source heat pump system.
本文介绍了土壤源热泵冬季间歇运行工况的试验结果。
This text introduced the intermittent movement test result of ground source pump in winter.
土壤源热泵是利用媒介质取其土壤内冷(热)能量的新型装置。
The soil source heat pump is a new kind of equipment to obtain the cold(or heat) energy in soil by the using of the medium.
地源热泵系统包括地下水热泵系统、土壤源热泵系统和地表水热泵系统。
GSHP can be subdivided into groundwater heat pump (GWHP), ground-coupled heat pump (GCHP), and surface water heat pump (SWHP).
提出了太阳能—土壤源热泵空调系统的概念,研究了该系统的工作原理。
The concept of the solar energy and geothermal-source heat pump type air-condition system was proposed, and the working principle of this system was studied in this paper.
主要介绍了土壤源热泵系统的设计及特点,并初步分析了该系统的运行能耗情况。
The design scheme and characteristics of the ground-source heat pump system were introduced. In addition, the energy consumption during operation periods was briefly analyzed.
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。
Taking the hybrid ground source heat pump with cooling tower as research object, a simplified calculation model of buried tube heat exchanger is established.
本文介绍了土壤源热泵导致的土壤吸、放热不平衡以及解决这种热失衡的两种方案。
This article introduces tow options leads to soil heat-absorbing, exothermic imbalance and solves the thermal imbalance of that the ground-source heat pump.
考虑土壤源热泵水系统的特点,说明土壤源热泵两个水系统控制适合采用温差控制。
Temperature difference control ADAPTS to the control of two water systems of ground source heat pump, considering the character of water systems of ground source heat pump.
随着土壤源热泵在制冷工况下连续运行,埋管出口介质温度和管井壁面温度逐渐升高。
Along with GSHP running at refrigerate condition the temperatures of the out medium and the wall gradually rise.
土壤源热泵是一种绿色环保节能的空调系统,在中国已经开始进入高速推广使用阶段。
Ground source heat pump is an energy-saving aircondition system of green environmental protection, which has been promoted to utilize in China.
运行结果表明,该系统能为土壤源热泵安全运行、监测管理和负荷能量调节提供可靠保证。
Operation results show that this system can provide a reliable guarantee on safety operation, supervisory control and load and energy adjustment for ground source heat pumps.
该系统采用了大温差变流量冷水机组、大温差定流量带部分热回收土壤源热泵机组与锅炉的组合;
The chillers adopt large temperature difference and variable flow, the heat pumps adopt large temperature difference and fixed flow and part heat recovery.
摘要:本文主要介绍了土壤源热泵系统的设计方法和步骤,重点论述了地下热交换器的设计过程。
Abstract: in this paper the design ways and steps of ground-coupled heat pump system have been introduced.
为了解决太阳能和土壤源热泵单独应用时存在的缺陷,提出太阳能-土壤源混合式热泵系统的设计方案。
For solving defects when solar energy and geothermal-source heat pump are used alone, method of the solar energy - geothermal source hybrid heat pump system is proposed.
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.
本文中的模型可以对土壤源热泵系统的设计方案进行经济性评估,以便设计人员选取经济性较好的方案。
A mathematical model for simulation of ground source heat pump system is built based on line heat source theory.
基于重庆市某空军场站的双U管竖埋式土壤源热泵系统工程,对该系统冬季变工况下的运行能耗进行了分析。
This paper analyzed the energy consumption of a system in operation status——the double U-tubes vertically buried tube ground-source heat pump system in an air force station of Chongqing.
结果表明,与土壤源热泵相比,联合供暖运行模式具有明显的节能效果,有、无蓄热水箱时的节能率分别为14。
The result shows that comparing with ground source heat pump, the energy saving rate with and without heat storage water tank is 14.
结果表明,与土壤源热泵相比,联合供暖运行模式具有明显的节能效果,有、无蓄热水箱时的节能率分别为14.5%和10.4%;
The result shows that comparing with ground source heat pump, the energy saving rate with and without heat storage water tank is 14.5% and 10. 4% respectively.
通过比较土壤源热泵系统与风冷热泵系统的耗能量和土壤源热泵系统如何有效地利用地表热能两个方面,分析了土壤源热泵系统节能的原因并提出了影响其节能特性的因素。
The reasons were analyzed from the points of how efficiently GSHP USES the underground thermal energy and EER comparison of GSHP with the air 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。
It is very important to determine the heat transfer between ground heat exchanger and surrounding soil for a closed ground source heat pump.
由于土壤温度的全年温度变化特性,地源热泵比空气源热泵具有更高的COP。
The COP of the ground source heat pump is higher than that of the air source heat pump because of the soil annual temperature change characteristics.
本文用地源热泵地下换热器线热源模型、简化柱热源模型和二维瞬态数值传热模型对地下土壤导热系数分别进行了计算。
The line source model, the simplified cylindrical source model and the two-dimensional numerical model were used to determine the thermal conductivity of underground soil.
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。
The mathematical model presented here may provide design guidance for the design of underground heat exchanger for ground source heat pumps.
介绍了地下土壤的热平衡问题,采用太阳能辅助加热的混合式地源热泵系统是有效的方法。
This paper introduces heat balance problems of underground soil, effective method of mixed GSHP for solar energy.
介绍了地埋管地源热泵使用地区的地域差异和由此导致的土壤吸、放热不平衡。
The difference about the areas where the ground source heat pump be used in was presented, which lead to the thermal imbalance of soil between absorbing and releasing.
介绍了地埋管地源热泵使用地区的地域差异和由此导致的土壤吸、放热不平衡。
The difference about the areas where the ground source heat pump be used in was presented, which lead to the thermal imbalance of soil between absorbing and releasing.
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