Affiliation:
1. College of Mechanical and Electrical Engineering Beijing University of Chemical Technology North Third Ring Road 15, Chaoyang District Beijing 100029 China
2. Beijing Key Laboratory of Electrochemical Process and Technology for Materials Beijing University of Chemical Technology North Third Ring Road 15, Chaoyang District Beijing 100029 China
Abstract
AbstractAs the important component to guide the airflow in the classifier, installation position of the guide vane determines the width of the classification annular region and influences the flow field distribution. The influence of the guide vane positioning on the flow field in the annular region is analyzed through numerical simulation. The simulation results show the tangential velocities near the inner edge of the guide vanes increase, and the tangential velocity gradient decreases with decrease of the width of the annular region. The increases of turbulent dissipation rate near the guide vanes are beneficial to powder dispersion. However, the increases of turbulent dissipation rate near the rotor cage aren′t conducive to uniformity of the flow field. In case of the narrow annular region, the cut size gradually increases when the width of the annular region increases. However, when the width of the annular region continues to increase, the particle′s residence time become long, and the solid concentration increases significantly to increase the probability of particle aggregation. The reasonable range of the installation diameter of the guide vane in the classifier is between 504 mm and 524 mm.