The Numerical Investigation of Aerodynamic Structures of Truck and Trailer Combinations

Year 2015, Volume: 4 Issue: 3, 139 - 145, 14.04.2015

Cihan Bayındırlı , Yahya Akansu , Mustafa Salman , Deniz Çolak

https://doi.org/10.18245/ijaet.46119

Cited By: 4

Abstract

In this study, aerodynamic structures of the heavy vehicle consisting of truck and trailer was investigated with computational fluid mechanics method. The force measurement were performed on the model car and aerodynamic drag coefficient (CD) were determined numerically in 4 different speeds on the Fluent® program. Numerical analysis of flow were made on the 59 000 - 844 000 Reynolds number. The effect of trailer additional to truck was determined to aerodynamic drag coefficient. The friction and pressure induced distributions were determined of total aerodynamic resistance. The images of flow structure were obtained around the truck trailer. The zones that was forming aerodynamic resistance were determined.

Keywords

Aerodynamic drag coefficient (CD), Fluent®, turbulent flow, truck and trailer

Aerodinamik Kamyon Yapıları ve Treyler Birleşmeleri Sayısal İncelenmesi

Abstract

Bu
çalışmada, kamyon ve treyler oluşan ağır aracın aerodinamik
yapısı hesaplamalı akışkanlar mekaniği yöntemi ile
araştırılmıştır. Kuvvet ölçüm model araba yapıldı ve
aerodinamik sürtünme katsayısı (CD) Fluent® programı 4 farklı
hızlarda sayısal belirlendi. 844 000 Reynolds sayısı - akışının
Sayısal analiz 59 000 yapılmıştır. Kamyon ek römork etkisi
aerodinamik sürükleme katsayısı tespit edildi. Sürtünme ve
basınç kaynaklı dağılımları toplam aerodinamik direnç
belirlenmiştir. Akış yapısının görüntüleri kamyon römork
etrafında elde edilmiştir. Aerodinamik direnç oluşturan edildi
bölgeleri tespit edilmiştir.

Keywords

Aerodinamik sürtünme katsayısı (CD), Fluent®, türbülanslı akış, kamyon ve treyler

References

• Çakmak, M.A," Investigation of vehicles as aerodynamically”, Mühendis Makina, 41, 489, 2000.
• Wahba, C. E.M., Al-Marzooqi, H., Shaath, M., Shahin, M., and El-Dhmashawy. T. (2012). Aerodynamic Drag Reduction for Ground Vehicles using Lateral Guide Vanes. CFD Letters Vol. 4(2), 68-78.
• Gilhaus, A, “The influence of cab shabe on air drag of trucks”, Journal of Wind Engineering and Industrial Aerodynamics, 9, 77-87, 1981.
• Chowdhury, H, Moria H, Ali A, Khan I, Alam, F, Watkins, S, “A study on aerodynamic drag of a semi-trailer truck” 5th BSME International Conference on Thermal Engineering Volume 56, Pages 201–205, 2013.
• Miralbes, R, “Analysis of Some Aerodynamic Improvements for Semi-Trailer Tankers” Proceedings of the World Congress on Engineering Vol 3 WCE, 4-6 July, London U.K, 2012.
• Çengel, A, Y, Cimbala J, M, “Fluid Mechanics Fundamentals and Applications”, (Çev. Tahsin Engin, H. Rıdvan Öz, Hasan Küçük, Şevki Çeşmeci), Güven Bilimsel, İzmir, 2008.
• Sahin C, “Prediction of Aerodynamic Drag Coefficient for Heavy Vehicles with Computational Fluid Dynamics Method” İstanbul Technical Universty, Institute of Science and Technology, Master Thesis, 2008.
• Apisakkul, K.T., and Kittichaikarn, C. (2005). Numerical analysis of flow over car spoiler. Paper presented The Ninth Annual National Symposium on Computational Science and Engineering Papers ANSCSE-9, Bangkok, Thailand.
• Desai M., Channiwala S. A., Nagarsheth, H. J. (2008). Experimental and Computational Aerodynamic Investigations of a Car. WSEAS Transactions on Fluid Mechanics Issue 4, Volume 3, 359-366.
• Hu, Xu-xia., and Wong, E.T.T. (2011). A Numerical Study On Rear-spoiler Of Passenger Vehicle. World Academy of Science, Engineering and Technology, 57, 636-641.
• Lokhande, B., Sovani, S., and Khalighi, B. (2003). Transient simulation of the flow field around a generic pickup truck. SAE Technical Paper Series, 01-1313, 1- 19.
• Perzon, S., and Davidson, L. (2000). On transient modeling of the flow around vehicles using the Reynolds equation. International Conference on Applied Computational Fluid Dynamics (ACFD) Beijing China, 720-727.
• Vaghela, K. (2013).Optimization of Roof Fairing Angle to Reduce the Aerodynamic Drag of Heavy Duty Truck. International Journal of Emerging Technologies in Computational and Applied Sciences IJETCAS, 13-322, 113-117.