在瑞典,大多数新建的住宅建筑都已经由地源热泵系统供暖。
Most new residential buildings in Sweden are already heated with ground-source heat pumps.
分析了冬季地源热泵试验的有关数据。
本发明公开了一种双效的地源热泵系统。
The invention discloses a double-effect ground source heat pump system.
提供了地源热泵系统安装,启动和试运行指南。
Provides guidelines for installation, startup and commissioning of ground-source systems.
地源热泵技术是一项空调、供暖和热水供应技术。
The ground source heat pump is a technology which applied for air-condition?
地源热泵是公认的最有效的加热和冷却系统的一个市场上。
Ground source heat pumps are recognized as one of the most efficient heating and cooling systems on the market.
他建起了厌氧消化池,安装了风轮机、太阳电池板和地源热泵。
He has installed an anaerobic digester, a wind turbine, solar panels and a ground-sourced heat pump.
介绍了建筑节能的概念和要求,阐述了地源热泵系统的运行原理。
The concept and requirements of building energy efficiency were introduced. Operation principle of ground-source heat pump system was described.
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。
Presents the calculating method of ground heat exchanger in the ground-source heat pump system.
计算结果为地源热泵系统的动态模拟、优化设计及改进提供了参考。
The result can be used as a reference for the dynamic simulation, optimum design and improvement of GSHP.
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).
结合工程实例,介绍了太阳能地源热泵空调系统的设计思路和运行方式。
Basing on a practical project, the design methods and operating ways of this system were introduced.
结果表明:太阳能辅助地源热泵供热的综合性能优于单纯地源热泵供热。
The results show that supplying heat with the ground-coupled heat pump by using the solar energy as assisted source is superior to the ground-coupled heat pump only in all-round performance.
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 heat transfer performance test of ground heat exchanger was presented and compared with thermal response test.
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.
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.
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。
A ground source heat pump will provide the heating and photovoltaic panels and an on-site wind turbine will generate renewable energy.
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。
Thermal properties of deep ground are important data for designing geothermal heat exchangers in ground source heat pump (GSHP) systems.
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。
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.
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。
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.
地源热泵通过输入少量高品位能源(电能),实现低温位热能向高温位热能转移。
Giving little power energy can transfer the low level energy to high level energy.
地源热泵空调系统是目前可以利用的对环境最友好和最有效的供冷、供暖空调系统。
Ground resource heating pump air-conditioning system is the most friendly and most effective heating and Cooling system air-conditioning system to the environment that people may utilize till today.
提出了地源热泵—辐射地板联合系统的概念,阐述了该系统基本原理以及运行和控制模式。
The integrated system combined radiant floor with ground-source heat pump is discussed. The basic theory, various operating and controlling models of the system are described.
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 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.
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.
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。
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.
主要研究内容如下:1.对现有的地源热泵埋管换热器传热模型、设计方法进行对比分析。
It brings forward a new way to the energy saving and environmental protection of air-conditioning systems. The main research contents of this paper are as following:1.
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。
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。
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.
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