International Journal of Multidisciplinary Research and Growth Evaluation  |  ISSN (Online): 2582-7138  |  Double-Blind Peer Review  |  Open Access  |  CC BY 4.0

Current Issues
     2026:7/3

International Journal of Multidisciplinary Research and Growth Evaluation

ISSN (Online): 2582-7138 | Open Access

CFD Application Simulation & Research on the Influence of Maneuver Angle on Aerodynamic Forces Used on Cars

Author(s):

Published:

Volume: 6 | Issue: 1 | Pages: 292-298

Subject: Engineering

Country: Vietnam

DOI: https://doi.org/10.54660/IJMRGE.2025.6.1.292-298

License: CC BY 4.0

Full Text (PDF)

Open Access - Free to Download

Download Full Article (PDF)

Alternative download link

Abstract

Nowadays, the automobile industry is increasingly developing, along with the requirements of reducing fuel consumption, the design of cars with good aerodynamic shape is of interest to many countries in the world. Therefore, reducing aerodynamic drag is one of the issues that car designers put first. The method of simulating fluid flow through the car uses the finite volume method for unstructured mesh, using Fluent software based on the Reynolds Navier - Stokes average equation and the standard k - ε turbulence model. The accuracy of the problem depends on the number of grid points and the computer resources. The problem is solved by the sequential solution method. The simulation results are shown in intuitive graphics, which are the pressure and velocity distribution fields.

How to Cite This Article

Nguyen Tri Nguyen, Le Thi Minh Nghia, Bui Quoc Khoa (2025). CFD Application Simulation & Research on the Influence of Maneuver Angle on Aerodynamic Forces Used on Cars . International Journal of Multidisciplinary Research and Growth Evaluation (IJMRGE), 6(1), 292-298. DOI: https://doi.org/10.54660/IJMRGE.2025.6.1.292-298

Export Citation:

BibTeX RIS EndNote

References

  1. 1. Piomeli U. High Reynoldsnumbercalculationsusingthedynamicsubgrid-scalestressmodel. Physicsof Fluids.1993; A5:1484.
  2. 2. Smagorinsky J. Generalcirculationexperimentswiththeprimitiveequations. Monthly Weather Review.1963;91(3\:99-164.
  3. 3. Lyn DA, Rodi W. Theflappingshearlayerformedbyflowseparationfromtheforwardcornerofsquarecylinder. Journalof Fluid Mechanics.1994;267:353-376.
  4. 4. Lyn DA, Einav S, Rodi W. Alaser-Dopplervelocimetrystudyofensembleaveragedcharacteristicsofturbulentnearwakeofasquarecylinder. Journalof Fluid Mechanics.1995;304:285-319.
  5. 5. Durao DF, Heitor MV, Pereira JCF. Measurementofturbulentandperiodicflowsaroundasquarecross-sectioncylinder. Experimentsin Fluids.1988;6:298-304.
  6. 6. Najm HN, Wyckoff PS, Knio OM. Asemi-implicitnumericalschemeforreactingflow. Journalof Computational Physics.1998;143:381-402.
  7. 7. Pham MV, Plourde F, Doan Kim S. LESsimulationinathinliquidfilmsubmittedtohighthermalstress. ASMESummer Heat Transfer Conference, Las Vegas(NV\, USA, July21-23,2003.
  8. 8. Franke R, Rodi W. Calculationofvortexsheddingpastasquarecylinderwithvariousturbulencemodels. Proceedingsofthe8th Symposiumon Turbulent Shear Flows.1991;189.
  9. 9. Lamder BE, Kato M. Modellingflowinducedoscillationsinturbulentflowaroundsquarecylinder. Proceedingsofthe Forumon Unsteady Flow(FED\.1993;157:189.
  10. 10. Lamballais E, Sylvestrini SH. Directnumericalsimulationofinteractionsbetweenamixinglayerandwakearoundacylinder. Journalof Turbulence.2002;3:28.
  11. 11. Khoa BQ. Researching, designingandmanufacturingofthepollenbeevacuumdryermodel. Ho Chi Minh City Universityof Technology;2010.
  12. 12. Khoa BQ. Vietnam'srenewableenergyindustry'sapproachtomarketdevelopment Impactof Smartgridsystemsandrenewableenergysourcesintegration. International Journalof Multidisciplinary Researchand Growth Evaluation.
  13. 2024. DOI: https://doi. org/10.54660/. IJMRGE.2024.5.6.857-872.
  14. 13. Ngoc TM, Khoa BQ. Simulate Energyin Buildings Accordingto LEED&LOTUS. Certification Science&Technology Publisher.2023.
  15. 14. Ngoc TM, Khoa BQ. LEEDRating System Basisfor Green Buildings. Certification Science&Technology Publisher.2022.
  16. 15. Khoa BQ, Hay N, Duc LA, Tam PH. Optimizationof The Vacuum Dryingprocessfor Bee Pollen Usingthe Rmethod. International Journalof Multidisciplinary Comprehensive Research.
  17. 2024. DOI: https://doi. org/10.54660/IJMCR.2024.3.6.51-
  18. 56. International Journalof Multidisciplinary Researchand Growth Evaluationwww. allmultidisciplinaryjournal. com298|Page
  19. 16. Cong NC, Vuong PM, Nghia LTM, Khoa BQ. CFDSimulationof Convectiveairflowthrougha Square Cylinder. International Journalof Multidisciplinary Comprehensive Research.
  20. 2024. DOI: https://doi. org/10.54660/IJMCR.2024.3.6.57-62.
  21. 17. Cong NC, Vuong PM, Nghia LTM, Khoa BQ. CFDSimulationof Air Flowthrough Square Column. International Journalof Social Science Exceptional Research.
  22. 2024. DOI: https://doi. org/10.54660/. IJMRGE.2024.5.6.955-966.
  23. 18. Khoa BQ. Simulation Optimizationof Vacuum Drying Processfor Bee Pollen Using RSoftware. International Journalof Social Science Exceptional Research.
  24. 2024. DOI: https://doi. org/10.54660/. IJMRGE.2024.5.6.978-1013.

Publication Information

Journal: International Journal of Multidisciplinary Research and Growth Evaluation (IJMRGE)

Publisher: Anfo Publication House

ISSN: 2582-7138 (Online)

Frequency: Bimonthly

Language: English

Open Access: Yes - This article is distributed under the terms of the Creative Commons Attribution 4.0 International License

Share This Article: