以十水硫酸钠为相变材料,采用真空吸附法制备十水合硫酸钠/膨胀石墨复合相变储能材料(Na2SO4·10H2O/EG),对其融化-凝固、相分离、过冷、潜热等热物性进行测试分析.结果表明:在Na2SO4·10H2O中添加2%(质量分数,下同)硼砂和8%EG后,可得到理想的Na2SO4·10H2O/EG固固复合相变材料.此时,Na2SO4·10H2O相分离得到消除,过冷度由13.6℃降低到0.6℃以下,相变潜热和体储能密度分别为225.77kJ·kg-1和218.09MJ·m-3.此外,导热率也得到提高,相比于只添加成核剂硼砂的Na2SO4·10H2OPCM,储热时间缩短52.6%,放热时间缩短55.1%,经过500次急剧升温降温循环后也未出现性能衰减,储/放热性能较好.
Sodium sulfate decahydrate/expanded graphite composite phase-change material (Na2SO4·10H2O/EG) was prepared by vacuum adsorption method.The thermal properties of Na2SO4 · 10H2O/EG,such as melting-solidification,phase separation,supercooling and latent heat were tested and analyzed.The results show that with the addition of 2% (mass fraction) borax and 8%EG,the composite phase-change materials Na2SO4 · 10H2O/EG obtain ideal properties.The phase separation is eliminated,the supercooling degree of Na2SO4 ·10H2O is reduced from 13.6℃ to below 0.6℃,the latent heat and the energy storage density of the phase change materials reach 225.77kJ · kg-1 and 218.09MJ · m-3 respectively.The thermal conductivity is also greatly improved.Compared with Na2SO4 · 10H2O with the addition of the nucleating agent borax only,the time for heat storage is shortened by 52.6%,and the time for heat release is shortened by 55.1%.Even after 500 times of rapid heating and cooling cycles,the performance of Na2SO4 · 10H2O/EG does not deteriorate.The novel composite phase change material has better storage/exothermic properties.
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