2022
DOI: 10.3390/en15030689
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Influence of the Car Movable Aerodynamic Elements on Fast Road Car Cornering

Abstract: In the case of road cars, road safety is the primary factor. The geometry of high-speed road cars has no regulatory restrictions. In addition to the high engine power and effective shape, they can use various types of additional movable aerodynamic elements to adjust their aerodynamic characteristics to the road conditions. Based on the geometry of a two-seater prototype of such a vehicle, a numerical analysis of the influence of a number of additional movable aerodynamic elements on its aerodynamic characteri… Show more

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Cited by 15 publications
(7 citation statements)
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“…To sum up, the formula for the value of the spring coefficient consists of the product of two parts (13) (two-parameter model): a fixed part (12), which can be calculated once at the beginning of the simulation (Qi), and a variable part (qi), which must be updated at each time step (14). If the following condition is met:…”
Section: The Proposed Two-parameter Modelmentioning
confidence: 99%
See 2 more Smart Citations
“…To sum up, the formula for the value of the spring coefficient consists of the product of two parts (13) (two-parameter model): a fixed part (12), which can be calculated once at the beginning of the simulation (Qi), and a variable part (qi), which must be updated at each time step (14). If the following condition is met:…”
Section: The Proposed Two-parameter Modelmentioning
confidence: 99%
“…also if the strain values are equal to zero, the formula presented above (13) simplifies to the form:…”
Section: The Proposed Two-parameter Modelmentioning
confidence: 99%
See 1 more Smart Citation
“…The vehicle's center of gravity (CG) allows the weight mass gravity (𝑚𝑔) to be active, depending on the angle of inclination (𝛽) the weight has the ability to pull the vehicle to the ground, as well as to pull back or forward [35,36]. The aerodynamic resistance slows the vehicle in terms of movement [37,38], regardless of whether it moves backward or forwards. In [39], it is determined that the aerodynamic drag force (𝐹 𝑑 ) acts on the center of gravity (CG) starting from the second law of Isaac Newton, according to Equation 1.…”
Section: Solver Configurationmentioning
confidence: 99%
“…Likewise, there are lines of research [10] that seek to reduce aerodynamic drag by developing different deflector models, each of which is validated with CFD computational simulation, which allows a better understanding of the behavior of the air in different situations. These studies develop passive [20] or active methods [21] to reduce aerodynamic drag or analyze the influence of certain moving vehicle components on aerodynamic drag [22]. Therefore, with the common aim of reducing aerodynamic drag, the present paper focuses on the pressure difference between the front and rear of a car, which is the main cause of aerodynamic drag [23], intending to decrease this difference by increasing the air pressure at the rear.…”
Section: Introductionmentioning
confidence: 99%