摘要
用氯化物法制得α-LiAlO2细料.两种反应物料分别在650℃和550℃反应1h,生成α-LiAlO2.经过水洗等,产生水合作用,生成水合物(LiAlO2)2·5H2O.此水合物失水后,又变为α-LiAlO2细料.其粒度分别为0.33μm和0.45μm.反应物的粒度和性质及反应温度等对产物α-LiAlO2粒度均有一定影响.在本方法中,吸入反应机理仍起主要作用.以此细和粗α-LiAlO2粉料为原料,用流铸法制得电池隔膜.用此隔膜和两张烧结多孔Ni板组装的电池在200mA/cm2放电时,输出电压为0.85V.6次再起动。
Fine -LiAlO2 powder was prepared by Chloride synthesis and its hydrate (LiAlO2)25H2O was brought out by hydration of fine -LiAlO2 powder prepared upon the reaction of reactant A(or B) in the chloride at 650 (or 550 ) for 1 h. Its particle size is 0.33 m(or 0.45 m) and BET surface area is 140(or 124 )m2/g. The granularity of fine -LiAlO2 powder was dependent on the granularity and properties of reactants and reaction temperature and so forth. Imbibition mechanism still plays a significant factor in the Chloride synthesis. The matrix was prepared with the mixture of fine and coarse -LiAlO2 powder and by the flow cast. Its average pore diameter is 0.36 m and porosity is 64.4%. Cell voltage of MCFC(electrode area 28 cm2 or 110 cm2)assembled with the matrix and two sintered and porous Ni plates as anode and cathode is 0.854 V at 200 mA/cm2. The cell was operated for 6 thermal circles without reducing its performance.
出处
《硅酸盐学报》
EI
CAS
CSCD
北大核心
1999年第4期452-460,共9页
Journal of The Chinese Ceramic Society
基金
国家"九五"攻关项目
关键词
氯化物法
偏铝酸锂
隔膜
熔融碳酸盐
燃料电池
chloride synthesis, fine -lithium aluminate, matrix, matrix molten carbonate fuel cell performance, imbibition mechanism