个人信息Personal Information
副教授
博士生导师
硕士生导师
性别:男
毕业院校:大连理工大学
学位:博士
所在单位:能源与动力学院
办公地点:能动学院613室
电子邮箱:lygong@dlut.edu.cn
基于CFD的汽车水泵优化设计
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发表时间:2014-01-01
发表刊物:排灌机械工程学报
期号:6
页面范围:477-481
ISSN号:1674-8530
摘要:Aiming at solving the problem that the water pump has low efficiency in the cooling system of a turbochargered PFI(port fuel injection)gasoline engine,a combined 1D and 3D CFD optimization simulation work was conducted.Firstly,according to maximum thermal load taken away by the engine cooling system,the total flow rate requirement of the water pump was determined.In addition,the re-quired total head of the water pump was calculated numerically by a 1 D CFD software Flowmaster. Based on the requirement of flow rate and head,the detailed geometry design of the pump was conduc-ted.The centrifugal shrouded impeller was designed with the leading edge of the blade inclining to pressure side.The volute was designed by applying an trapezoidal cross section with expansion channel method.Finally,the impeller and volute were analyzed by a 3D CFD software,and redesign and opti-mization can be done.The computed results show that the calculated and experimental values are in excellent agreement,and the difference is less than 5%.The new designed water pump satisfies the requirement.In addition,the total efficiency of the new pump is increased by 26%while the NPSHR (net positive suction head)is decreased by 0.4 m.The pressure contour results demonstrate that the pressure distribution in the new pump is more uniform.Due to the elimination of low velocity vortex in original volute,the energy loss is decreased and the energy transfer efficiency is increased in this new pump.
备注:新增回溯数据