空气动力学
趋同(经济学)
计算流体力学
流利
计算机科学
湍流
汽车工业
网格生成
空气动力阻力
流量(数学)
计算科学
模拟
机械工程
航空航天工程
有限元法
工程类
计算机模拟
结构工程
机械
物理
经济
经济增长
作者
Georgios Felekos,Eleni Douvi,Dionissios P. Margaris
标识
DOI:10.1177/09544070221135908
摘要
This paper investigates cost-efficient ways of accurately numerically simulating the aerodynamic phenomena around the DrivAer model, a well-established conventional car reference model created by the Technical University of Münich (TUM). After processing the geometry of the Fastback configuration, a high quality ANSYS Poly-Hexcore mesh was constructed in ANSYS Fluent Meshing, reducing the number of cells needed for a highly accurate simulation. The grid independence study was conducted with the GCI method where convergence was achieved by a 10.5-million-cell mesh. The simulations were performed in ANSYS Fluent, where modeling using k-ε Realizable turbulence model, with Scalable wall functions and the SimpleC algorithm was chosen. The results showed good prediction of the drag and pressure coefficients, proving the accuracy and efficiency of the approach, while the flow and vortices were visualized and presented in the corresponding diagrams, being indicative of the aerodynamic structures around automotive vehicles.
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