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.
本文研究相变材料(冰)围绕水平椭圆柱,在有限长接触时的压力熔化过程。
The pressure melting process of phase change material (the ice) around a horizontal elliptical cylinder with finite length is studied.
提出并研究了相变材料围绕水平椭圆柱,在有限长接触时的温差熔化过程。
The finite length contact melting of phase change material around a moving horizontal elliptical cylinder driven by temperature difference was investigated.
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.
对水平矩形腔内相变材料的接触熔化过程进行了研究。
The melting process of phase change materials (PCM) inside a finite length rectangular capsule which is heated isothermally at the bottom is analyzed.
讨论相变材料围绕水平圆柱与平板下各种形式的接触熔化过程。
The various contact melting processes of phase change material around the horizontal cylinder and flat are studied.
固态相变材料的运动对熔化传热过程有着重要影响。
The effects of natural convection and moving of solid PCM on melting heat transfer are compared.
固态相变材料的运动对熔化传热过程有着重要影响。
The effects of natural convection and moving of solid PCM on melting heat transfer are compared.
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