Structural Optimization of Corn Circulating Ventilator for Grain Storage Silo Based on CFD

Abstract

This study optimized the ventilation structure of a fan-driven corn circulating grain storage bin. By combining computational fluid dynamics, orthogonal experiments, and response surface optimization experiments, the internal airflow field of the corn circulating ventilation of grain storage bin was simulated and the structural parameters were optimized using Fluent simulation. The optimization function of the Design-expert 13 software was utilized to determine the optimal parameter combination as follows: the diameter of the circulating inlet was 20 mm, the number of circulation layers is 13, the diameter of the bottom ventilation opening was 6 mm, and the number of ventilation openings was 7. Using the evaluation index of relative standard deviation CV, the wind speed uniformity of the storage area before and after optimization was compared. After optimization, the relative standard deviation CV of the internal flow field of the grain storage bin increased by 24.1% compared to the initial ventilation structure of the bin. This study provides important data for the optimization of the ventilation structure of corn grain storage.