A computational program has been developed for evaluating the performance of phase change thermal storage.
编制了相变储热器的性能分析计算程序。
The high-temperature phase change material TH576 is chosen as the thermal energy storage material by testing and analysing its thermal performance.
本文通过对相变材料热性能测试及分析,选用高温相变材料TH576为蓄热介质,它具有相变潜热大、导热性能好、原材料易得等优点。
The results show that: the switch time of air and the bulk of storage bed play important roles as regards its thermal performance characteristics.
结果表明,空气的换向时间、蜂窝陶瓷蓄热体换热器的体积等是影响其温度效率和热回收率的重要因素。
The effects of operation, structures and performance parameter of the solar thermal storage wall were analyzed.
另外,模拟分析了集热蓄热墙体的采暖负荷平均化的作用、结构和性能参数的影响。
We have succeeded in making a kind of phase change material (PCM) of high thermal storage density, good corrosion-resistant performance and low cost of preparation by powder sintering method.
本研究采用粉末烧结工艺将陶土分别同性能优良的高温熔融盐复合,成功地制备出蓄热密度高、耐腐蚀性好且成本低廉的相变蓄热复合材料。
The key of thermal heat storage is the utilization of thermal heat storage material with good performance.
蓄热技术的关键是高性能蓄热材料的选择和应用。
The performance and types of phase change materials used in the thermal storage were studied.
研究了在储能领域使用较为广泛的相变材料的种类及其特点。
The performance and types of phase change materials used in the thermal storage were studied.
研究了在储能领域使用较为广泛的相变材料的种类及其特点。
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