Optimization of the Structural Parameters of a Cyclone by Using a Genetic Algorithm

Abstract

AbstractA mathematical model is proposed to optimize a two‐stage separation cyclone. The model combines the discrete phase model, multi‐objective genetic algorithm, and response surface model. The model was validated by experimental data with an average deviation of 9.87 %. The effects of three structural parameters on the comprehensive performance of this cyclone are discussed. By applying a central composite design method, the cyclone was optimized and three optimal designs were obtained, with an average pressure drop reduction of 6.05 %, and 2.34‐fold improvement in separation efficiency over the original design. The proposed model and results are of great significance for the further design of this type of cyclone.