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基于主动射流的汽车后视镜区域气动噪声控制
引用本文:李启良,杜文海,王毅刚,杨志刚. 基于主动射流的汽车后视镜区域气动噪声控制[J]. 同济大学学报(自然科学版), 2019, 47(8): 1195-1200
作者姓名:李启良  杜文海  王毅刚  杨志刚
作者单位:同济大学 上海地面交通工具风洞中心, 上海 201804;上海市地面交通工具空气动力与热环境模拟重点实验室, 上海 201804,同济大学 上海地面交通工具风洞中心, 上海 201804;上海市地面交通工具空气动力与热环境模拟重点实验室, 上海 201804,同济大学 上海地面交通工具风洞中心, 上海 201804;上海市地面交通工具空气动力与热环境模拟重点实验室, 上海 201804,同济大学 上海地面交通工具风洞中心, 上海 201804;上海市地面交通工具空气动力与热环境模拟重点实验室, 上海 201804;北京民用飞机技术研究中心, 北京 102211
基金项目:上海市地面交通工具风洞专业技术服务平台项目(19DZ2290400);上海市地面交通工具空气动力与热环境模拟重点实验室项目(18DZ2273300)
摘    要:使用大涡模拟和声扰动方程求解后视镜区域气动噪声的非定常流场和声场.通过比较前侧窗19个测点能量平均总压力级的仿真和试验结果发现,两者仅相差2.3 dB(A),它们频谱变化趋势相同,量值差异较小.在此基础上,建立了主动射流模型,并改变射流位置、方向和速度等参数,采用子域仿真方法得到最优射流方案.将最优射流方案置于整车气动噪声仿真模型中,通过与原始模型对比发现,主动射流增大了后视镜尾部的时均压力,减小了压力梯度,降低了后视镜区域涡流强度,使整车气动阻力系数减少0.002,前侧窗网格节点能量平均的总声功率级降低1.8 dB(A),湍流脉动总功率级降低0.3 dB(A).

关 键 词:主动射流  后视镜区域  气动噪声控制  声扰动方程
收稿时间:2018-10-11
修稿时间:2019-05-21

Aerodynamic Noise Control of Automobile Rear View Mirror Based on Active Jet
LI Qiliang,DU Wenhai,WANG Yigang and YANG Zhigang. Aerodynamic Noise Control of Automobile Rear View Mirror Based on Active Jet[J]. Journal of Tongji University(Natural Science), 2019, 47(8): 1195-1200
Authors:LI Qiliang  DU Wenhai  WANG Yigang  YANG Zhigang
Abstract:The aerodynamic noise in the rear view mirror region has an important influence on the vehicle interior noise. Therefore, large eddy simulation and acoustic perturbation equations were used to solve its unsteady flow field and sound field. A comparison of the results between simulation and experiment of the energy averaged total pressure level of the 19 measuring points of the front side window indicates that the difference between them is only 2.3 dB(A). The trend of frequency spectrum is similar and the difference in magnitude is small. Based on this, the active jet model is established and the parameters such as jet position, direction, and speed are changed. Besides, the subdomain simulation method was used to find the optimal jet scheme. Moreover, the optimal jet scheme was put into the vehicle aerodynamic noise simulation model. A comparison with the original model shows that the active jet increases the time-averaged pressure at the wake of the mirror, and reduces the pressure gradient and the vortex intensity of the mirror region. The vehicle aerodynamic drag coefficient is reduced by 0.002 while the energy averaged overall sound power of the front side window is reduced by 1.8 dB(A), and the overall turbulent fluctuation power is reduced by 0.3 dB(A).
Keywords:active jet   rear view mirror   aerodynamic noise control   acoustic perturbation equations
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