This content is not included in
your SAE MOBILUS subscription, or you are not logged in.
Under-Hood Air Flow Evaluation of Pedestrian-Friendly Front-End Style Using CFD Simulation
References
- Yang , Z. , Bozeman , J. , Shen , F. , Turner , D. et al. CFRM Concept for Vehicle Thermal System SAE Technical Paper 2002-01-1207 2002 10.4271/2002-01-1207
- Yang , Z. , Bozeman , J. , and Shen , F. CFD for Flow Rate and Air Re-Circulation at Vehicle Idle Conditions SAE Technical Paper 2004-01-0053 2004 10.4271/2004-01-0053
- Lee , Y.L. and Hong , Y.T. Analysis of Engine Cooling Including Flow Non-uniformity Over a Radiator Int. J. Vehicle Design 24 1 121 135 2000
- Mao , S. , Feng , Z. and Michaelides , E.E. Off-highway Heavy-duty Truck Under-hood Thermal Analysis J. of Applied Thermal Engineering 30 13 1726 1733 2010
- Miguel , A. F. , van de Braak , N. J. , Silva , A. M. , & Bot , G. P. A. Wind-induced Airflow through Permeable Materials J. of Wind Engineering and Industrial Aerodynamics 89 45 47 2001
- Patankar , S. V. , & Spalding , D. B. A Calculation Procedure for the Transient and Steady-State Behavior of Shell-and -Tube Heat Exchangers Heat exchangers: design and theory sourcebook 155 176 1974
- FLUENT 6 users manuals FLUENT Inc. Lebanon NH, USA 2005
- EEVC WG17 Report - Improved Test Methods to Evaluate Pedestrian Protection Afforded by Passenger Car December 1998 September 2002
Cited By
Recommended Content
| Technical Paper | CFD for Flow Rate and Air Re-Circulation at Vehicle Idle Conditions |
| Technical Paper | Study on the Fan Noise Reduction for Automotive Radiator Cooling Fans |
| Technical Paper | Fan and Heat Exchanger Flow Interactions |