Author:
Wang Dehua,Xia Chao,Jia Qing,Yang Zhigang
Abstract
<div class="section abstract"><div class="htmlview paragraph">The platoon of intelligent vehicles can significantly reduce the aerodynamic drag, which has broad development prospects. This research numerically studies the effect of Reynolds number (Re = 3.32×10<sup>5</sup> to 19.94×10<sup>5</sup>), the vehicle numbers (3-, 5-, 8-vehicle), and vehicle types (fastback, notchback, and squareback) on the platoon drag reduction with three different front-edge radius (<i>R<sup>*</sup>=R/W</i>×<i>100</i> = 9.36, 4.68 and 2.34). The results show that when the Reynolds number is greater than 9.97×10<sup>5</sup>, the drag coefficient ratio <i>C<sub>D</sub>/C<sub>Di</sub></i> (<i>C<sub>Di</sub></i> is the drag coefficient of the isolated vehicle) of each vehicle in the platoon is less affected by the Reynolds number. When <i>R<sup>*</sup></i>=9.36, the averaged <i>C<sub>D</sub>/C<sub>Di</sub></i> of the fastback platoon (even above 1) is higher than that of both the notchback platoon and the squareback platoon without front-edge separation at the leading vehicle due to the weakest shielding effect on the following car resulting from the prominent downwash wake. Compared with <i>R<sup>*</sup></i>=9.36, when the flow separation occurs at the front-edge <i>R<sup>*</sup></i>=2.34, the averaged <i>C<sub>D</sub>/C<sub>Di</sub></i> of the platoon with different vehicle numbers and each vehicle (except the leading vehicle) in the platoon both exhibit a tremendous reduction. This drag reduction should be attributed to the shielding effect caused by the front-edge separation at the leading vehicle. In addition, at the front-edge <i>R<sup>*</sup></i>=2.34, the averaged <i>C<sub>D</sub>/C<sub>Di</sub></i> of the fastback and squareback platoon are comparable, much larger than that of the notchback platoon featured by a balanced wake and shortened recirculation flow at in-notch region. Except for the fastback platoon at <i>R<sup>*</sup></i>=9.36, the other platoon's averaged <i>C<sub>D</sub>/C<sub>Di</sub></i> decreases gradually with the increase of vehicle number. This work has a vital reference significance for the aerodynamic optimization design of the future intelligent vehicle platoon.</div></div>
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