Numerical Analysis Of The Effects Of Transient Aerodynamics On Driving Stability

Numerical Analysis Of The Effects Of Transient Aerodynamics On Driving Stability

The present study investigated the effects of transient aerodynamic forces on driving stability of road vehicle. The investigation was carried out using large eddy simulation (LES). To facilitate the investigation, two vehicle models with distinct upper body geometries were developed. The models ado...

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Main Authors: Cheng, See Yuan, Tsubokura, Makoto, Nakashima, Takuji, Okada T., Nouzawa, Takahide
Format: Conference or Workshop Item
Language:English
Published: 2011
Online Access:http://eprints.utem.edu.my/id/eprint/10477/2/6th_Jpn_Taiwan_Workshop_2011.pdf
http://eprints.utem.edu.my/id/eprint/10477/
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Institution: Universiti Teknikal Malaysia Melaka
Language: English
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spelling my.utem.eprints.104772021-07-05T16:15:31Z http://eprints.utem.edu.my/id/eprint/10477/ Numerical Analysis Of The Effects Of Transient Aerodynamics On Driving Stability Cheng, See Yuan Tsubokura, Makoto Nakashima, Takuji Okada T. Nouzawa, Takahide The present study investigated the effects of transient aerodynamic forces on driving stability of road vehicle. The investigation was carried out using large eddy simulation (LES). To facilitate the investigation, two vehicle models with distinct upper body geometries were developed. The models adopted the characteristic geometries of upper body of real sedan-type vehicles with distinct pitching stability behavior. To probe the dynamic response of the models, a forced-sinusoidal-pitching oscillation is imposed on them during the LES. Accordingly, the models undergo pitching oscillation in a similar manner to the rear-ride-height fluctuation of real vehicles. To allow quantitative analysis on the stability characteristic of models, a parameter termed aerodynamic damping coefficient is introduced. The coefficient quantifies the work done by aerodynamic pitching moment on the models during pitching oscillation. For validation of the LES method, flow structures around the models obtained by stationary LES were compared to the wind tunnel measurements. The comparison shows good agreement. Meanwhile, the dynamic LES results show higher aerodynamic damping in the model with rounded front pillar configuration, by about 22.3%. The Underbody has the highest contribution to the total aerodynamic damping, which was up to 69%. However, the difference between the aerodynamic damping of models with distinct front and rear pillar configurations mainly depends on the trunk-deck contribution. 2011 Conference or Workshop Item PeerReviewed text en http://eprints.utem.edu.my/id/eprint/10477/2/6th_Jpn_Taiwan_Workshop_2011.pdf Cheng, See Yuan and Tsubokura, Makoto and Nakashima, Takuji and Okada T. and Nouzawa, Takahide (2011) Numerical Analysis Of The Effects Of Transient Aerodynamics On Driving Stability. In: The Sixth Japan-Taiwan Workshop On Mechanical And Aerospace Engineering, 7-10, Dec 2011, Sapporo, Japan.
institution Universiti Teknikal Malaysia Melaka
building UTEM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknikal Malaysia Melaka
content_source UTEM Institutional Repository
url_provider http://eprints.utem.edu.my/
language English
description The present study investigated the effects of transient aerodynamic forces on driving stability of road vehicle. The investigation was carried out using large eddy simulation (LES). To facilitate the investigation, two vehicle models with distinct upper body geometries were developed. The models adopted the characteristic geometries of upper body of real sedan-type vehicles with distinct pitching stability behavior. To probe the dynamic response of the models, a forced-sinusoidal-pitching oscillation is imposed on them during the LES. Accordingly, the models undergo pitching oscillation in a similar manner to the rear-ride-height fluctuation of real vehicles. To allow quantitative analysis on the stability characteristic of models, a parameter termed aerodynamic damping coefficient is introduced. The coefficient quantifies the work done by aerodynamic pitching moment on the models during pitching oscillation. For validation of the LES method, flow structures around the models obtained by stationary LES were compared to the wind tunnel measurements. The comparison shows good agreement. Meanwhile, the dynamic LES results show higher aerodynamic damping in the model with rounded front pillar configuration, by about 22.3%. The Underbody has the highest contribution to the total aerodynamic damping, which was up to 69%. However, the difference between the aerodynamic damping of models with distinct front and rear pillar configurations mainly depends on the trunk-deck contribution.
format Conference or Workshop Item
author Cheng, See Yuan
Tsubokura, Makoto
Nakashima, Takuji
Okada T.
Nouzawa, Takahide
spellingShingle Cheng, See Yuan
Tsubokura, Makoto
Nakashima, Takuji
Okada T.
Nouzawa, Takahide
Numerical Analysis Of The Effects Of Transient Aerodynamics On Driving Stability
author_facet Cheng, See Yuan
Tsubokura, Makoto
Nakashima, Takuji
Okada T.
Nouzawa, Takahide
author_sort Cheng, See Yuan
title Numerical Analysis Of The Effects Of Transient Aerodynamics On Driving Stability
title_short Numerical Analysis Of The Effects Of Transient Aerodynamics On Driving Stability
title_full Numerical Analysis Of The Effects Of Transient Aerodynamics On Driving Stability
title_fullStr Numerical Analysis Of The Effects Of Transient Aerodynamics On Driving Stability
title_full_unstemmed Numerical Analysis Of The Effects Of Transient Aerodynamics On Driving Stability
title_sort numerical analysis of the effects of transient aerodynamics on driving stability
publishDate 2011
url http://eprints.utem.edu.my/id/eprint/10477/2/6th_Jpn_Taiwan_Workshop_2011.pdf
http://eprints.utem.edu.my/id/eprint/10477/
_version_ 1705060016709435392

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