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    Aerodynamic analysis of Audi A4 Sedan using CFD

    New search for: Birwa, S. K.
    New search for: Rathi, N.
    New search for: Gupta, R.

    Abstract This paper presents the aerodynamic influence of velocity and ground clearance for Audi A4 Sedan. The topology of the test vehicle was modeled using CATIA P3 V5 R17. ANSYS FLUENT 12 was the CFD solver employed in this study. The distribution of pressure and velocity was obtained. The velocities were 30, 40, 50 and 60 m/s and ground clearances were 76.2 mm,101.6 mm,127 mm and 152.4 mm. The simulation results were compared with the available resources. It was found that the drag coefficient decreases with the velocity increasing from 30 to 60 m/s and increases with the ground clearance from 101.6 mm to 152.4 mm. Further decrease in ground clearance showed no effect on the value of coefficient of drag. The lift coefficient was found to decrease firstly with ground clearance from 152.4 mm to 101.6 mm, and then increase from 101.6 mm to 76.2 mm. Both the lift coefficient and drag coefficient was found to be minimum for the ground clearance of 101.6 mm as designed by the company.

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    Aerodynamic analysis of Audi A4 Sedan using CFD

    New search for: Birwa, S. K.
    New search for: Rathi, N.
    New search for: Gupta, R.

    Abstract This paper presents the aerodynamic influence of velocity and ground clearance for Audi A4 Sedan. The topology of the test vehicle was modeled using CATIA P3 V5 R17. ANSYS FLUENT 12 was the CFD solver employed in this study. The distribution of pressure and velocity was obtained. The velocities were 30, 40, 50 and 60 m/s and ground clearances were 76.2 mm,101.6 mm,127 mm and 152.4 mm. The simulation results were compared with the available resources. It was found that the drag coefficient decreases with the velocity increasing from 30 to 60 m/s and increases with the ground clearance from 101.6 mm to 152.4 mm. Further decrease in ground clearance showed no effect on the value of coefficient of drag. The lift coefficient was found to decrease firstly with ground clearance from 152.4 mm to 101.6 mm, and then increase from 101.6 mm to 76.2 mm. Both the lift coefficient and drag coefficient was found to be minimum for the ground clearance of 101.6 mm as designed by the company.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Aerodynamic analysis of Audi A4 Sedan using CFD

    New search for: Birwa, S. K.
    New search for: Rathi, N.
    New search for: Gupta, R.

    Abstract This paper presents the aerodynamic influence of velocity and ground clearance for Audi A4 Sedan. The topology of the test vehicle was modeled using CATIA P3 V5 R17. ANSYS FLUENT 12 was the CFD solver employed in this study. The distribution of pressure and velocity was obtained. The velocities were 30, 40, 50 and 60 m/s and ground clearances were 76.2 mm,101.6 mm,127 mm and 152.4 mm. The simulation results were compared with the available resources. It was found that the drag coefficient decreases with the velocity increasing from 30 to 60 m/s and increases with the ground clearance from 101.6 mm to 152.4 mm. Further decrease in ground clearance showed no effect on the value of coefficient of drag. The lift coefficient was found to decrease firstly with ground clearance from 152.4 mm to 101.6 mm, and then increase from 101.6 mm to 76.2 mm. Both the lift coefficient and drag coefficient was found to be minimum for the ground clearance of 101.6 mm as designed by the company.

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    Title:

    Aerodynamic analysis of Audi A4 Sedan using CFD

    Contributors:

    Birwa, S. K. (author) / Rathi, N. (author) / Gupta, R. (author)

    Published in:

    Journal of The Institution of Engineers (India): Series C ; 94 ; 105-111

    Publication date:

    2013-04-01

    Size:

    7 pages

    ISSN:

    2250-0553 , 2250-0545

    DOI:

    https://doi.org/10.1007/s40032-013-0065-1

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Flow separation , Drag , Lift , Aerodynamics , Sedan , Computational fluid dynamics (CFD) Engineering , Aerospace Technology and Astronautics , Mechanical Engineering , Industrial and Production Engineering

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