基于多物理场的电磁锅炉加热器结构优化设计

Structural Optimization Design of Electromagnetic Boiler Heater based on Multi-Physical Field

  • 摘要: 为了获得最大换热效率的电磁锅炉加热器结构,选取加热器加热棒的直径、均布直径、均布角度,非金属外壳内壁直径及非金属外壳壁厚5个参数为设计参数,采用基于多物理场耦合计算,并利用基于响应面模型和遗传算法对加热器的多个设计参数进行了优化设计分析,得到了效率最高的结构参数,优化后的加热器换热效率达到了97.8%,比原型加热器结构换热效率提升了5.8%。

     

    Abstract: In order to obtain the structure of electromagnetic boiler heater with maximum heat exchange efficiency, five parameters of heater are selected as the design parameters, these are, heating rod diameter, heating rod uniform distribution diameter, heating rod uniform distribution angle, non-metallic shell inner wall diameter and non-metallic shell wall thickness. Based on the multi-physical field coupling calculation, the response surface model and genetic algorithm are used to optimize the design parameters of the heater; and then the structural parameters with the highest efficiency are obtained. The heat transfer efficiency of the optimized heater reach to 97.8%, which is 5.8% higher than that of the prototype heater structure.

     

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