The invention discloses a double-effect ground source heat pump system.
本发明公开了一种双效的地源热泵系统。
The ground source heat pump is a technology which applied for air-condition?
地源热泵技术是一项空调、供暖和热水供应技术。
Underground-water source heat pump is one type of the Ground Source Heat Pump.
地下水是应用地下水水源热泵的前提。
The development of ground source heat pump (GSHP) at home and abroad is briefly introduced.
介绍了地源热泵的工作原理、性能评价指标和基本类型;
The building is heated using a ground source heat pump running off a series of 40m bore holes.
建筑使用地源热泵供暖,通过一系列40米的钻孔。
But all this depend on the steady, safe and highly efficient running of ground source heat pump unit.
但是,这又依赖于热泵机组的稳定、安全、可靠、高效的运行。
Solar thermal panels are linked to the ground source heat pump to increase efficiency, utilisingmultiple piled foundations.
利用多堆积基础,太阳能面板与地热泵相连从而提高能效,。
Ground source heat pump system can also set heating, air conditioning and refrigeration and provide living hot water in a body.
地源热泵系统还可以集采暖、空调制冷和提供生活热水于一身。
The ground source heat pump system is used for recovering the heat of the wind generated when the underground runs in the tunnel.
本发明用于回收地铁在隧道内行驶时产生的风的热量。
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。
A ground source heat pump will provide the heating and photovoltaic panels and an on-site wind turbine will generate renewable energy.
地源热泵提供了所需采暖,太阳能光电板和风力涡轮机提供了可再生能源供给。
Thermal properties of deep ground are important data for designing geothermal heat exchangers in ground source heat pump (GSHP) systems.
地下岩土的热物性参数是地源热泵地热换热器的设计中所需要的很重要的参数。
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。
This paper introduces ground source heat pump, solar energy air conditioning system's working principle, analyses their features and prospects.
本文介绍了使用可再生能源的地源热泵、太阳能空调系统的工作原理,分析了它们的特点和应用前景。
Ground source heat pump is an energy-saving aircondition system of green environmental protection, which has been promoted to utilize in China.
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。
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.
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。
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 utility model belongs to the technical field of a water source heat pump, a ground source heat pump and a vapor compression type cooling water machine set.
本实用新型属于水源热泵、地源热泵和蒸汽压缩式冷水机组的技术领域。
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.
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%;
Applies the heat pump driven liquid desiccant fresh air handling unit to treat fresh air, ground source heat pump to provide cooling, heating and domestic hot water.
采用高效热泵式溶液调湿机组处理新风,地源热泵机组供冷、供热、供生活热水。
This paper introduces an testing method and testing equipment for the performance of heat transfering of pipes buried under ground in a ground source heat pump system.
介绍一种地源热泵地下埋管换热性能测试装置及测试方法,并对该装置的用途进行了分析讨论。
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。
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.
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。
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。
Because of having high efficiency, energy saving, little effect on environment and steady operation, water source heat pump and ground source heat pump are promising in Guiyang.
水源热泵和地源热泵由于具有高效节能、对环境影响小、运行稳定等特点,在贵阳地区很有发展前途。
The ground source heat pump mainly utilizes the shallow geothermal energy tor heating or coonng, which is a technology with the advantages of saving energy and protecting environment.
地源热泵技术主要利用浅层地热能为建筑物供暖和制冷,有着节能减排、高效环保等优点。
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。
Then on the principle of optimizing design the working condition of ground source heat pump system is analyzed. According to the performance of the unit each main component is designed.
然后本着优化设计的原则对地源热泵系统的设计工况进行了分析,根据其工作特点对机组各主要部件进行了设计。
Then on the principle of optimizing design the working condition of ground source heat pump system is analyzed. According to the performance of the unit each main component is designed.
然后本着优化设计的原则对地源热泵系统的设计工况进行了分析,根据其工作特点对机组各主要部件进行了设计。
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