Methods of Reducing Vehicle Aerodynamic Drag

Сиренко, В. Н.; Pavlovsky, Roman M.; Rohatgi, U.S.

doi:10.1115/fedsm2012-72491

Cited by 18 publications

(12 citation statements)

References 1 publication

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“…Similar results were also presented by Pujals et al 27 with up to 10% reduction in drag, and Wood 5 with fuel economy improvement of 1%–5%. Other studies, however, noted either only marginal drag benefits (1.2%–1.7%) 28,29 or overall increases in drag. 28,30 The research suggests that while the supplementary vorticity results in increases in base pressure, the additional induced drag may outweigh the benefits.…”

Section: Introductionmentioning

confidence: 92%

On the drag reduction of road vehicles with trailing edge-integrated lobed mixers

Rejniak

Gatto

2021

Proceedings of the Institution of Mechanical Engineers, Part D:

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Trailing edge-integrated lobed-mixing geometries are proposed as a viable method for road vehicle aerodynamic drag reduction. Experiments are conducted on a 1/24th-scale model, representative of a Heavy Goods Vehicle, at a width-based Reynolds number of 2.8 × 105. A broad range of pitches and penetration angle values is examined, with detailed comparisons also made to high-aspect-ratio rear tapering. Changes to mean drag coefficients and wake velocities are evaluated and assessed from both the time-independent and time-dependent perspectives. Results show significant drag reductions for lower pitches at higher penetration angles, where the performance of regular tapering is found substantially degraded. The mechanisms responsible for drag reduction are identified to be reductions in the wake size and a shift in the vertical wake balance. The former is shown to be a result of the enhancement in inboard momentum close to the trailing edges through the generation of pairs of counter-rotating streamwise vortices, with the latter attributed to the downstream evolution of the vortices. Overall, these results identify such geometries to be suitable for improving vehicle drag while minimising the losses in internal space.

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Section: Introductionmentioning

confidence: 92%

On the drag reduction of road vehicles with trailing edge-integrated lobed mixers

Rejniak

Gatto

2021

Proceedings of the Institution of Mechanical Engineers, Part D:

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“…Untuk mengatasi gaya hambat maka diperlukan desain bentuk kendaraan yang streamline demikian juga komponen-komponen aerodinamikanya. Salah satu komponen aerodinamika adalah wing sebagai passive option untuk reduksi drag [8]. Wing digunakan untuk memberikan gaya tekan ke bawah (downforce) atau gaya lift negatif.…”

Section: Pendahuluanunclassified

Perancangan Mekanisme Spoiler Dinamis

Siahaan

Osmond

Alimin

2021

jtm

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Seiring dengan perkembangan teknologi yang semakin cepat, penggunaan komponen aerodinamika tipe aktif mulai banyak diterapkan pada mobil. Salah satunya adalah spoiler dinamis. Spoiler dinamis adalah suatu tipe spoiler yang memiliki sinergitas ketika mobil melakukan pengereman maupun gerakan membelok serta dapat juga bekerja secara simultan. Penelitian ini bertujuan untuk merancang mekanisme spoiler dinamis yang dapat diterapkan pada mobil dengan sudut putar pergerakan spoiler dinamis maksimal sebesar 15° dari kondisi normalnya ketika mobil melakukan proses pengereman maupun proses membelok. Spoiler dinamis yang diusulkan memanfaatkan sistem elektrik dengan motor servo yang mempunyai besaran torsi 1.8 N.m sebagai aktuatornya. Input sudut roda kemudi diteruskan menjadi pergerakan potensiometer sebagai pengatur gerakan roda kemudi sedangkan input pedal rem menggunakan mekanisme push button yang dikendalikan oleh mikrokontroler Arduino. Hasil pengujian menunjukkan bahwa ketika roda kemudi diputar sebesar 90° maka sudut putar spoiler bergerak sebesar 14.7° dari kondisi normalnya pada salah satu sisi. Artinya, mekanisme spoiler dinamis ini dapat berfungsi dengan baik ketika kondisi pengereman maupun membelok bahkan ketika melakukan gerakan simultan. Pada saat proses pengereman, sudut kedua bagian spoiler menjadi maksimal dan hampir mencapai 150 sebagaimana output yang diinginkan

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“…Sirenko et al [4] had shown higher fuel savings using rear screens and rear fairings for a light-duty General Motors SUV. Song et al [5] performed aerodynamic optimization of a sedan for drag reduction using artificial neural networks and CFD approach.…”

Section: Introductionmentioning

confidence: 99%