高温熔盐相变储热是空间太阳能热动力发电系统的关键技术之一。
High temperature phase change heat storage using molten fluoride salts is one of the key techniques for space solar thermal dynamic power system.
利用相变材料(PCM)的熔化潜热来蓄热可以保证空间站太阳能热动力系统在轨道的阴影期内仍能连续发电。
The solar dynamic power module proposed for the space station uses the heat of fusion of a phase change material (PCM) to efficiently store thermal energy for use during eclipse periods.
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。
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.
国内针对太阳能-相变蓄热新风系统的研究相对较少,对其热力学建模、控制算法及系统辨识的研究也不多见。
Only few of studies is on this type of fresh air system in China, so are the thermodynamic modeling, control algorithm and system identification.
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。
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。
The device mainly included heat-pipe vacuum solar air collector system, paraffin latent heat storage system, drying system, automatic control system.
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