2016
DOI: 10.5545/sv-jme.2016.3240
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Optimization of SAE Formula Rear Wing

Abstract: This work deals with taking advantage of the available numerical methods when trying to excel in automotive competition. First, the optimization problem is outlined, to be followed by the proposed numerical solution, as well as the practical consequences of this solution, not as a proof of validity of the numerical approach, but rather as a description of a modern design flow.Formula SAE is an international competition having the common goal of designing and manufacturing of a racing car. While efforts have be… Show more

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Cited by 5 publications
(3 citation statements)
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“…Experiments are costly and the required special equipment is not widely available, which poses a serious problem for wind tunnel experiments. Recent and similar works [1] and [18] to [20] (Table 4) crosswind situation. In this study, we use the stability criteria relationship derived in [2] to analyze three crosswind accident types: rollover, side-slip or lateralslip, and rotation.…”
Section: Aerodynamic Stability Analysismentioning
confidence: 85%
“…Experiments are costly and the required special equipment is not widely available, which poses a serious problem for wind tunnel experiments. Recent and similar works [1] and [18] to [20] (Table 4) crosswind situation. In this study, we use the stability criteria relationship derived in [2] to analyze three crosswind accident types: rollover, side-slip or lateralslip, and rotation.…”
Section: Aerodynamic Stability Analysismentioning
confidence: 85%
“…Unfortunately, these resources are only available to race car manufacturers and professional race teams, leaving the amateur "club" racer to rely on off-the-shelf parts from specialty suppliers often without being able to verify performance gains except by testing on the racetrack, which is time-consuming and expensive if many variables are to be investigated. Exceptions have been the extensive CFD work carried out by many University groups on Formula SAE cars [4][5][6][7], as well as detailed studies using the RANS model to determine the effect of devices such as the Gurney flap for car racing applications [8,9]. The goal of the present study is to determine if modest cost (time) calculations are suitable for determining the initial location parameters of aerodynamic devices to minimize trial-and-error approaches for club motorsports.…”
Section: Introductionmentioning
confidence: 99%
“…But the reduction in vehicle energy consumption can be realized mostly through mass reduction. Additionally, the shapes of the new vehicle body-in-white parts such as swooping rooflines, wheel covers and housings, extra front and rear spoilers, and rear wings, have a significant impact on the aerodynamic drag, which plays a crucial role in the development of energy-efficient commuter and premium luxury vehicles as well as track-oriented sports cars [14]. The lightweight body-in-white constructions frequently utilize a mix of various material types, which results in advanced joining technology such as adhesive bonding, rivets and blind-rivet joints, yet the fatigue life estimation is complicated for these types of connections [15].…”
Section: Deriving Requirements For the Icddpmentioning
confidence: 99%