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ALPHA2 50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 1 3K ,这将十分有利于提高阳极质量和提高产率 Using computational fluid dynamics, heat transfer calculation and combustion theory and model, ALPHA250 workstations were programmed to calculate the flow field, temperature field and concentration field in the anode roaster combustion chamber, and proposed by multiple mathematical simulations Structural optimization of the program, the flow field and the temperature field has been significantly improved, and the firing temperature increased by 13K, which will be very conducive to improving the anode quality and increase productivity