地下水源热泵;节能性;经济性;回收期。
Ground water heat pump; Energy-efficiency; Cost-effective; Payback period.
介绍了地下水源热泵空调系统的特点、应用条件以及系统形式。
The characteristic, the applying condition and system formation of the ground water-source heat pump air conditioning system were introduced.
这些结论为以后太阳能-地下水源热泵系统在该地区的应用设计提供了参考依据。
These data can be considered as reference for design of the supplementary heating systems using solar energy and groundwater resources heat pumps in this region.
通过实验验证,地下水源热泵系统以及地埋管系统均比户型空调机组的性能系数高。
According to the test parameters, the performance of the heat pump is better than the common air conditioning unit.
某宾馆工程地下水源热泵空调系统中,热泵机组在实际运行中不总处于满负荷运行状态。
In underground water source heating pump air-conditioning system of one guesthouse project, the heating pump unit does not always run at full load status.
对地下水源热泵机组的性能随着冷却水、冷冻水入口水温的变化情况做了预测,结果合理。
The effects of the cooling water and freezing water inlet temperature are also predicted. The results are reasonable.
结果表明:与地下水源热泵相比,在制热量和COP大致相当的情况下,节水量可以达到70%。
The results show that comparing with ground water-source heat pump, the water saving rate of the new system with the nearly equal heating and COP is about 70%.
地下水源热泵系统运行期间,地下冷热量循环过程与地下不同岩土层(含水层)的水文地质特征密切相关。
The cold-heat cycle underground is closely related to the hydrogeological characteristics of various rock and soil stratum (aquifer) when groundwater source heat pump system is running.
应该说,地下水源热泵是一个成熟的技术。但具体到某个工程,其可行性和经济性与当地的地质条件关系较大。
GWHP is arguably a mature technology, but its feasibility and economy have much to do with local geologic conditions when a specific project is involved.
本课题研究的主要目的在于优化地下水源热泵的井群系统以及通过实验研究不同的运行机制对于地下水源热泵性能的影响。
This article optimize the well group designs of system and research the influence of difference work mechanisms for GWSHP system through experiment.
介绍了地下水源热泵机组与地板供暖结合的供暖系统,提出了两个系统结合用于冬季供暖的方案并分析了两者结合应用的优点。
The underground water source heat pump and floor heating system are introduced, and the system combined wth these two systems are put forward and the benefits are analyzed in this paper.
在此基础上,采用温频法对武汉地区一栋办公建筑采用地下水源热泵系统的全年能耗进行模拟,模拟包括办公楼空调系统全年耗电量。
Then the BIN method was adopted to simulate the annual energy-consumption of groundwater heat pump systems (GWSPS) for an office building in Wuhan.
夏季利用地下水作为水源热泵机组的冷却水,冬季利用该厂丰富的污水作为机组的吸热源。
Ground water is used as the cooling water source of heat pump units in summer a great deal of production sewage is used as extracted heat sink for units in winter.
水源热泵是一种利用地下浅层水资源(地表水或地下水),既可供暖又可制冷的高效节能热泵系统。
Surface water heat pumps (SWHPs) are energy-efficient devices for heating and cooling that use surface water as a heat source and sink.
介绍了采用浅层地下水的水源热泵供暖的工程实例,分析了热泵供暖的经济性。
An engineering example of heat-supply using water-source heat pump of shallow groundwater is introduced.
介绍了采用浅层地下水的水源热泵供暖的工程实例,分析了热泵供暖的经济性。
An engineering example of heat-supply using water-source heat pump of shallow groundwater is introduced. The economy of heat-supply with heat pump is analyzed.
地下水是应用地下水水源热泵的前提。
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。
Underground-water source heat pump is one type of the Ground Source Heat Pump.
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