The geometric modeling and finite element modeling of the whole structure of an electrostatic precipitator and its main\ncomponents consisting of top beam, column, bottom beam, and bracket were finished. The strength calculation was completed. As\na result, the design of the whole structure of the electrostatic precipitator and the main components were reasonable, the structure\nwas in a balance state, its working condition was safe and reliable, its stress variation was even, and the stress distribution was\nregular. The maximum von Mises stress of the whole structure is 20.14 MPa. The safety factor was large, resulting in a waste of\nmaterial. An optimization mathematical model is established. Using the ANSYS first-order method, the dimension parameters of\nthe main frame structure of the electrostatic precipitator were optimized. After optimization, more reasonable structural design\nparameters were obtained. The model weight is 72,344.11 kg, the optimal weight is 49,239.35 kg, and the revised weight is\n53,645.68 kg. Compared with the model weight, the optimal weight decreased by 23,104.76 kg and the objective function decreased\nby 31.94%, while the revised weight decreased by 18,698.43 kg and the objective function decreased by 25.84%.
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