Thermal evaluation of non-deform laminated composite phase change material (PCM) gypsum board has been carried out. The theoretical studies covered the analysis of different thicknesses of PCM layers and their corresponding heat transfer rates during energy storage and discharge processes. A simply approach was also provided for determining the appropriate thicknesses of PCM layer under various conditions. For the purpose of experimental study and validation, a laminated gypsum board consisting of a 4 mm PCM layer was evaluated in a naturally ventilated condition. It achieved a maximum heat exchange of 15.6 W/m2 and a maximum energy storage of 363.7 kJ/m2. A model room built with the laminated PCM gypsum boards was also evaluated and achieved a maximum temperature reduction of 5 °C as compared with 1.8 °C for the one with ordinary gypsum board. Even though about 25% of the energy stored could not be released within the targeted period, the overall thermal performance of the PCM gypsum board was quite remarkable. Further heat transfer enhancement mechanism may therefore be necessary for the energy discharge process.
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机译:已经对非变形层压复合相变材料(PCM)石膏板进行了热评估。理论研究涵盖了在能量存储和放电过程中不同厚度的PCM层及其对应的传热速率的分析。还提供了一种简单的方法来确定各种条件下PCM层的适当厚度。为了进行实验研究和验证,在自然通风条件下评估了由4 mm PCM层组成的层压石膏板。它实现了15.6 W / m2的最大热交换和363.7 kJ / m2的最大储能。还评估了一个使用层压PCM石膏板建造的模型室,与使用普通石膏板的模型室的1.8°C相比,其最高温度降低了5°C。即使在目标时间内不能释放大约25%的存储能量,PCM石膏板的整体热性能也非常出色。因此对于能量释放过程可能需要进一步的传热增强机制。
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