储能科学与技术
儲能科學與技術
저능과학여기술
Energy Storage Science and Technology
2013年
3期
199-207
,共9页
冷光辉%秦月%叶锋%于翔%丁玉龙
冷光輝%秦月%葉鋒%于翔%丁玉龍
랭광휘%진월%협봉%우상%정옥룡
硅藻土%储热材料%相变材料
硅藻土%儲熱材料%相變材料
규조토%저열재료%상변재료
diatomite%thermal storage material%phase change material
硅藻土是一种含量丰富的非金属矿,具有较高的孔隙率、良好的表面结构和热物理性能,因而可作为复合储热材料的载体.本文综述了复合储热材料的种类和制备工艺,并介绍了硅藻土的结构、性能和以硅藻土为载体的复合相变储热材料的研究及应用现状.
硅藻土是一種含量豐富的非金屬礦,具有較高的孔隙率、良好的錶麵結構和熱物理性能,因而可作為複閤儲熱材料的載體.本文綜述瞭複閤儲熱材料的種類和製備工藝,併介紹瞭硅藻土的結構、性能和以硅藻土為載體的複閤相變儲熱材料的研究及應用現狀.
규조토시일충함량봉부적비금속광,구유교고적공극솔、량호적표면결구화열물이성능,인이가작위복합저열재료적재체.본문종술료복합저열재료적충류화제비공예,병개소료규조토적결구、성능화이규조토위재체적복합상변저열재료적연구급응용현상.
The earth is rich in diatomite resources. Such type of materials has a high porosity and favorable structural and thermophysical properties, and can therefore serve as the structural material for composite phase change materials. In this article, we first briefly introduces the structure and properties of diatomite, we then provide a state-of-the-art review on the use of the diatomite as the structural material for encapsulating phase change materials for thermal energy storage applications. Finally, further development in the area is discussed.
