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作 者:周嘉钰 鄢曙光[1,2] 熊攀 刘玮寅 鲁聪 ZHOU Jiayu;YAN Shuguang;XIONG Pan;LIU Weiyin;LU Cong(College of Resource and Environmental Engineering, Wuhan University of Science and Technology, Wuhan 430081, China;Hubei Key Laboratory for Efficient Utilization and Agglomeration of Metallurgic Mineral Resources, Wuhan 430081, China)
机构地区:[1]武汉科技大学资源与环境工程学院,湖北武汉430081 [2]冶金矿产资源高效利用与造块湖北省重点实验室,湖北武汉430081
出 处:《矿产保护与利用》2018年第6期65-69,共5页Conservation and Utilization of Mineral Resources
摘 要:使用计算流体力学软件FLUENT15. 0对中心锥上锥段底角为40°、45°、50°、55°水力旋流器进行了数值模拟,通过数值分析研究中心锥结构对水力旋流器内流场及分离效率影响,并考虑中心锥结构的磨损情况。模拟结果表明:适当的减小上锥段底角能提高分离效率,并改善上锥段的磨损情况,而过小的上锥段底角反而会降低分离效率,加重上锥段的磨损情况,说明中心锥上锥段底角在40°~50°之间存在着一个最佳角度,该角度能够得到较高的分离效率以及较小的磨损。模拟结果也为进一步优化中心锥结构提供了参考。FLUENT15.0,a computational fluid dynamics software,was used to numerically simulate the hydrocyclone with40°,45°,50°and55°of the upper cone angle of the central cone.The influence of central cone structure on flow field and separation efficiency in hydrocyclone are studied by numerical analysis,and taking into account the erosion status of the central cone structure.The simulation results indicate that proper reduction of the upper cone angle can improve the separation efficiency and improve the erosion status of the upper cone section,while too small upper cone angle will reduce the separation efficiency and increase the erosion status of the upper cone section.It can be seen that there is an optimum angle between the40°and50°of the upper cone angle of the central cone,which can result in higher separation efficiency and less erosion.The simulation results also provide a reference for further optimization of the central cone structure.
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