摘要
采用均匀设计法,按照各氯盐不同的质量比,制备出12种不同混合成分比例的四元氯盐。通过TG-DSC的测试手段,测试其熔点、比热、潜热等物性参数,并将它们进行比较,最后优选出最佳配比,当氯化钾∶氯化钠∶无水氯化镁∶氯化锂的质量比为0.653∶0.112∶0.049∶0.186时,四元混合氯盐的熔点低至348.5℃,使用温度上限高达800℃,溶化潜热为71.03J/g,综合性能达到最优。再通过304不锈钢片与316L钢片检验该样品的腐蚀性能,通过XRD分析与差重法综合热分析测试其热稳定性,结果表明融熔盐对钢片的腐蚀性比固态盐对钢片的腐蚀性更低。
Twelve samples of quaternary chlorine salt with various weight ratio were prepared by the uniform-experiment-match method. The melting point, latent heat and specific heat were tested by the TG- DSC. The results show that quaternary chlorine salt achieves optimal performance when the mass ratio of potassium chloride, sodium chloride, magnesium chloride and lithium chloride is 0. 653:0. 112 :0. 049:0. 186. / And the melting point of the optima sample reaches 348.5℃, the boiling point reaches 800℃, and the melting latent turns to 71.03J/g. The corrosivity of the optima salt sample was tested coupled with 304 steel and 316L steel by XRD and TG-DSC. And the results show that the molten salt has a lower corrosion than the solid salt.
出处
《材料科学与工程学报》
CAS
CSCD
北大核心
2014年第4期587-591,共5页
Journal of Materials Science and Engineering
基金
太阳能热发电金属相变储能技术及储热锅炉研究(863课题)资助项目(No:2007AA052460)
关键词
太阳能热发电
热物性
腐蚀性
混合氯盐
solar thermal power generation
thermo physical properties
corrosivity
mixed chlorine salt
