摘要
太阳能光热发电是可再生能源发展的主要方向。作为太阳能光热发电的核心技术,熔融盐以热容量大、粘度低、蒸汽压低、使用温度范围宽等诸多独特的性能优势,成为光热发电储能的首选。相比之下,硝酸熔盐具有优良的传热和流体流动等特性,使其在光热储热系统中的性能优势较为突出。我国盐湖地区具备太阳能光热发电的发展空间和优势,丰富的无机盐资源可以降低相关相变储能材料的生产成本,有利于推进太阳能的规模化发展、能源结构的调整优化。据此,立足于盐湖资源的开发利用,以硝酸盐系列传热蓄热介质的工业应用为背景,针对产业化的二元硝酸盐熔盐做了更深入的系统研究;在此基础上,通过添加硝酸镁,制备了低熔点的三元熔盐储能材料;并将碳纳米管引入到硝酸盐体系,进一步提升了其导热性能。这不仅为硝酸熔盐储热材料的制备提供了理论基础,也为其在光热发电的应用打开了更多的可能性。
Solar thermal power generation is the main direction of renewable energy development. As the core technology of solar power generation,molten salt possesses large heat capacity,low viscosity,low vapor pressure,wide use temperature range and many other unique performance advantages,being the top choice. Nitrate molten salt has excellent heat transfer and fluid flow characteristics,which make it more outstanding in the performance of thermal storage system. The salt lake area in China has the development space and advantage of solar photothermal power generation. Rich inorganic salt resources can reduce the production cost of phase change energy storage materials,which will be conducive to promoting the large-scale development of solar energy and the adjustment and optimization of energy structure. Based on the exploitation and utilization of salt lake resources,we have carried out systematic work. More thorough and systematic studies on the industrialization of binary nitric acid have been done. Then,ternary molten salt energy storage materials with low melting point were prepared by adding magnesium nitrate. The carbon nanotubes are introduced into the nitrate system for the first time,and the thermal conductivity is further improved thereof. This not only provides a theoretical basis for the preparation of nitrate molten salt thermal storage materials,but also opens up more possibilities for its application in photothermal power generation.
作者
王敏
李锦丽
赵有璟
王怀有
钟远
张宏韬
杜宝强
武延泽
WANG Min;LI Jin-li;ZHAO You-jing;WANG Huai-you;ZHONG Yuan;ZHANG Hong-tao;DU Bao-qiang;WU Yan-ze(Key Laboratory of Comprehensive and Highly Efficient Utilization of Salt Lake Resources,Qinghai Institute of Salt Lakes,Chinese Academy of Sciences,Xining,810008,China;Key Laboratory of Salt Lake Resources Chemistry of Qinghai Province,Xining,810008,China;University of Chinese Academy of Sciences,Beijing,100049,China)
出处
《盐湖研究》
CSCD
2018年第2期1-8,共8页
Journal of Salt Lake Research
基金
中国科学院科技服务网络计划(KFJ-EW-STS-131)
青海省科技厅重大科技专项计划项目(2017-GX-A3)
关键词
硝酸盐
储能材料
太阳能
光热发电
Nitrates
Energy storage material
Solar energy
Photothermal power generation
