The device mainly included heat-pipe vacuum solar air collector system, paraffin latent heat storage system, drying system, automatic control system.
该装置主要包括热管真空太阳能空气集热系统,石蜡相变储热系统,干燥系统,自动控制系统四个部分。
Using heat pipes as the heat transfer component in latent heat thermal energy storage system, a set of heat pipe heat exchanger with latent heat storage was designed and manufactured.
将热管作为换热元件应用于相变蓄热系统中,研制了一套热管式相变蓄热换热器。
Latent heat storage system based on phase change materials' (PCMs) melting and freezing is particularly suitable for solar energy heating, peak-shift of electrical demand and heat recovery.
基于相变材料熔化和凝固过程的相变潜热储能系统适用于太阳能加热、电力的‘削峰填谷’、热能回收。
The first one ACTS through the ocean surface such as latent heat transfer and sensible heat transfer which induce the change of the heat storage in the oceanic mixed layer.
第一类过程是通过海洋向大气的潜热、感热输送,引起海洋混合层中热贮存量的变化。
Latent heat thermal energy storage systems are used to recover the rejected heat from air conditioning systems, which can be used to produce low-temperature living heat water.
用潜热能储存系统回收空调系统排放的热量,可生产温热生活用水。
The results show that the material has higher latent heat and better thermal stability, so it can be used in thermal energy storage and heat recovery system.
测试结果表明,该储能材料具有较高的相变潜热和较好的热稳定性,因此可被应用于储能和热能回收系统中。
The application and their research progress of carbon materials in thermal energy domain such as heat transfer enhancement, chemical heat pump, and latent energy storage, are reviewed.
综述了碳材料在强化传热、化学热泵和潜热蓄能等热能领域中的最新应用与研究进展;
It combines the advantage of heat pump energy supply and latent thermal energy storage which can be used for discontinuous hot water supply.
该装置能够充分发挥相变储能技术和热泵供热技术各自的优势,高效节能,适用于间歇供应生活用热水场合。
The thermal properties of cool storage material include freezing and melting point, freezing and melting latent heat during the phase change process were investigated.
通过实验研究了空调蓄冷材料的凝固温度、融解温度、凝固潜热和融解潜热等热学性能。
Latent functionally thermal fluid (LFTF) is a kind of new medium with thermal energy storage and heat transfer enhancement.
潜热型功能热流体是一种集储热与强化传热功能于一体的新型工质。
At present, the heat storage technology has the sensible heat thermal storage and latent heat thermal storage.
目前,热能的储存一般分为显热式储能和潜热式储能。
Latent heat energy storage is one of the most efficient ways of storing thermal energy.
相变储能是最有效的储热方式之一。
The latent heat of fusion and heat capacities of paraffin wax are important parameters in design and calculation of thermal energy storage system.
潜热的融合和热的能力,石蜡是重要的参数设计与计算热储能系统。
The latent heat of fusion and heat capacities of paraffin wax are important parameters in design and calculation of thermal energy storage system.
潜热的融合和热的能力,石蜡是重要的参数设计与计算热储能系统。
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