(中南工业大学物理及热能工程系,长沙410083)
摘 要: 采用计算流体力学、计算传热学和计算燃烧学的原理和模型,在ALPH A250工作站上编程计算,得到了阳极焙烧炉燃烧室内的流场、温度场和浓度场,并通过多次数学模拟提出了结构优化的方案,使流场和温度场有了明显的改善,并将焙烧温度提高了13 K,这将十分有利于提高阳极质量和提高产率。
关键字: 阳极焙烧;计算机仿真;结构优化
(Department of Applied Physics and Heat Engineering,
Central South University of Technology, Changsha 410083, P.R.China)
Abstract:By means of the principle and model of computational fluid dynamics, computational combustion and computational heat transfer, the fluid field, temperature field and concentration field in the combustion camber of an anode baking furnace were calculated in D EC-Alpha 250 workstation, and analyzed anode baking furnace flue in detail. A reliable accurate, rapid and economical method was provided for optimizing structure of anode baking furnace flue and operation parameters. At the same time the temperature in combustion camber of baking furnace was increased. It is very useful for improving the quality of baking anode and efficiency of electroanalysis.
Key words: anode baking furnace; computer simulation; structure optimization