相变储热材料的热性能研究

IF 1 Q4 ENGINEERING, MECHANICAL Acta Mechanica et Automatica Pub Date : 2023-01-01 DOI:10.2478/ama-2023-0009

P. Bałon, B. Kiełbasa, Ł. Kowalski, R. Smusz

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引用次数: 0

摘要

摘要能源供应和需求的值在同一时间段内变化，并且不相等。因此，为了最大限度地减少浪费的能量，需要使用各种类型的能量存储系统。最近，人们可以观察到相变材料（PCM）作为可以存储过量热能的材料而变得流行的趋势。在这项研究中，作者分析了石蜡（干酪蜡）作为低温储能装置的PCM储能材料的能力。由于蜡的导热系数相对较低，作者还分析了开孔陶瓷Al2O3/SiC复合泡沫（PCM分散在其中）对热交换过程的影响。对石蜡进行了热分析，测定了石蜡的液体和固体比热、熔化潜热、熔化温度和导热系数。还对热能容器（内置PCM和陶瓷泡沫）进行了瞬态传热的热测试。确定了传热系数和累积能量值。

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Thermal Performance of the Thermal Storage Energy with Phase Change Material

Abstract Values of energy supply and demand vary within the same timeframe and are not equal. Consequently, to minimise the amount of energy wasted, there is a need to use various types of energy storing systems. Recently, one can observe a trend in which phase change materials (PCM) have gained popularity as materials that can store an excess of heat energy. In this research, the authors analysed paraffin wax (cheese wax)’s capability as a PCM energy storing material for a low temperature energy-storage device. Due to the relatively low thermal conductivity of wax, the authors also analysed open-cell ceramic Al2O3/SiC composite foams’ (in which the PCM was dispersed) influence on heat exchange process. Thermal analysis on paraffin wax was performed, determining its specific heat in liquid and solid state, latent heat (LH) of melting, melting temperature and thermal conductivity. Thermal tests were also performed on thermal energy container (with built-in PCM and ceramic foams) for transient heat transfer. Heat transfer coefficient and value of accumulated energy amount were determined.

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