材料研究学报  2000, Vol. 14 Issue (6): 652-656

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无机盐/陶瓷基复合储能材料的制备和性能

张仁元; 柯秀芳; 李爱菊

广东工业大学

张仁元; 柯秀芳; 李爱菊 . 无机盐/陶瓷基复合储能材料的制备和性能[J]. 材料研究学报, 2000, 14(6): 652-656.

摘要 参考文献 相关文章 Metrics 全文: PDF(485 KB)   摘要: 研究了Na2CO3--BaCO3/MgO和Na2SO4/SiO2两种显热/潜热复合储能材料的性能、稳定性及无机盐在多孔陶瓷体微结构内的容积份额与成型压力、烧结温度、升温速度、保温时间以及添加剂的性质等因素的关系,得到了材料的最佳配方和制备工艺. 关键词 ： 无机盐/陶瓷基,  显热/潜热复合储能材料     Key words： 收稿日期: 1900-01-01      服务 把本文推荐给朋友 加入引用管理器 E-mail Alert RSS 作者相关文章 张仁元 柯秀芳 李爱菊 44.8K 链接本文: https://www.cjmr.org/CN/Y2000/V14/I6/652 1 Randy J.Petri., Eayela T.Ong, and Terry D.Clear D., High Temperature Salt/Ceramic Thermal StoragePhase-Change Media, Proceedings, 18 th IECEC, Edited by William R.Martini (New York, AmericanInstitute of Chemical Engineerings, 1983) p.1769-1774 2 R.Tamme., 1990, Advanced Regenerator Media for Industrial and Solar Thermal Applications, Proc. 25thIECEC, Edited by H.Arastoopur, (New York, American Society of Mechanical Engineers united EngineeringCenter, 1990) p.1452 3　张仁元,朱泽培,朱焕良,谢国平,相变(复合)储能技术应用和开发可行性研究报告(广州,中国科学院广州能源研 究所报国家计委节能局,1988)p.1 4 E.Hahne, U.Taut, U.Grob, Salt Ceramic Thermal Energy Storage For Solar Thermal Central ReceiverPlants, Proceedings, Solar World Congress, 1991, Vol.2., Edited by M.E.Arden, (Oxford, Pergamon Press,1992) p.1937 5 A.Gluck, R.Tamme, H.Kalfa, H.Kalfa, C.Streuber, T.Weichert, Development and Testing of Advanced TESMaterials for Solar, Thermal Central Receiver Plants, Proceedings, Solar World Congress, 1991, Vol.2. PartⅡ, Edited by M.E.Arden, (Oxford, Pergamon Press, 1992) p.1943 6 D.Steiner, M.Wierse, M.Groll, Development and investigation of Thermal Energy Storage Systems for theMedium Temperature Range, Proceedings 30th IECEC, Edited by D.Yogi Goswami, Landis Kannberg,(New York, American Society of Mechanical Engineers united Engineering Center, 1995)p.193, No related articles found! Viewed Full text Abstract Cited   Shared      Discussed