2022
DOI: 10.3390/app12083763
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A Numerical Aerodynamic Analysis on the Effect of Rear Underbody Diffusers on Road Cars

Abstract: The aerodynamic complexity of the underbody surfaces of conventional road vehicles is a matter of fact. Currently available literature is focused mainly on very simple Ahmed-body geometries as opposed to realistic car shapes, due to their complexity and computational cost. We attempted to understand the flow behaviour around different realistic conventional road car geometries, and we provide an extensive evaluation of the aerodynamic loads generated. The key findings of this article could potentially set a pr… Show more

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Cited by 12 publications
(9 citation statements)
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“…Since, with the usage of an underbody diffuser, although the trailing vortex region area is reduced, counter-rotating vortex cores may be closer to the rear part of the body and this limits the pressure recovery to some extent. 10 Moreover, with the usage of a curved surface on the diffuser section, the underbody exit flow is curved too, and vortex cores can be deflected with the momentum transfer of this curved underbody flow, the especially lower part of the rear. Nevertheless, the curved surface tends to have minor scaled bubbles formed starting around the underbody diffuser inlet and upper recirculation has more unstable features.…”
Section: Qualitative Assessmentsmentioning
confidence: 99%
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“…Since, with the usage of an underbody diffuser, although the trailing vortex region area is reduced, counter-rotating vortex cores may be closer to the rear part of the body and this limits the pressure recovery to some extent. 10 Moreover, with the usage of a curved surface on the diffuser section, the underbody exit flow is curved too, and vortex cores can be deflected with the momentum transfer of this curved underbody flow, the especially lower part of the rear. Nevertheless, the curved surface tends to have minor scaled bubbles formed starting around the underbody diffuser inlet and upper recirculation has more unstable features.…”
Section: Qualitative Assessmentsmentioning
confidence: 99%
“…4 On the other hand, if this angle is too high, there will be flow separations and the stall issue, that is increase in drag force, similar to that of airfoils. 5,[8][9][10] In this sense, in the research and improvement studies of vehicle aerodynamics conducted for many years, the Ahmed body, which has dimensions similar to a ground vehicle, has been the subject of research. According to the information of the authors of this article, the idea of creating a relatively simpler vehicle model arose with the experimental work done by Morel in 1978.…”
Section: Introductionmentioning
confidence: 99%
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“…This concept of energy "traditionally dissipated by the braking system" is of vital importance in this study, since it is considered energy that can be used in the case of installing a regenerative braking system. Finally, regarding the aerodynamic drag of the vehicle, it is necessary to consider that a vehicle moving in a fluid (air) experiences a force that resists its forward motion [47,54,55]. This force is called aerodynamic drag (F wind ) (Phase II, Figure 2) and is developed in the following expression:…”
Section: Dynamic Characteristicsmentioning
confidence: 99%
“…The shapes of engineering objects are significant design factors that affect their functionality, particularly their aerodynamic aspects. For example, engineers have developed the shapes of ground vehicles for many years to reduce aerodynamic drag and increase fuel efficiency [1][2][3][4][5]. They have also attempted to reduce wind noise and increase the driving stability at high-speed operating conditions via the modification of a vehicle's body shape [6][7][8][9].…”
Section: Introductionmentioning
confidence: 99%