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The Development of Turbine Volute Surface Temperature Models for 3D CFD Vehicle Thermal Management Simulations: Part 3: Exhaust Radial Turbine Volute Systems

Journal Article
2014-01-0648
ISSN: 1946-3995, e-ISSN: 1946-4002
DOI: https://doi.org/10.4271/2014-01-0648
Published April 01, 2014 by SAE International in United States
The Development of Turbine Volute Surface Temperature Models for 3D CFD Vehicle Thermal Management Simulations: Part 3: Exhaust Radial Turbine Volute Systems
Sector:
Citation: De Vos, S., Haehndel, K., Frank, T., Christel, F. et al., "The Development of Turbine Volute Surface Temperature Models for 3D CFD Vehicle Thermal Management Simulations: Part 3: Exhaust Radial Turbine Volute Systems," SAE Int. J. Passeng. Cars - Mech. Syst. 7(2):714-727, 2014, https://doi.org/10.4271/2014-01-0648.
Language: English

References

  1. Haehndel , K. , Frank , T. , Christel , F. , Spengler , C. et al. The Development of Exhaust Surface Temperature Models for 3D CFD Vehicle Thermal Management Simulations Part 1 - General Exhaust Configurations SAE Int. J. Passeng. Cars - Mech. Syst. 6 2 847 858 2013 10.4271/2013-01-0879
  2. Comerias M. , Chesse P. , Hetet J.F Turbocharger Heat Transfer Modeling Under Steady and Transient Conditions Int. J Thermodynamics 12 193 202 2009
  3. Dean W.R Note on the Motion of Fluid in a Curved Pipe Phil.Mag. 4 208 223
  4. Kalpakli A. Experimental study of turbulent flows through pipe bends Royal Institue of Technology KTH Mechanics Stockhom Sweden 2012
  5. Eustace , J Experimental on Stream-Line Motion in Curved Pipes Proc. Roy. Soc 1911
  6. McConalogue , D. J. & Srivastava , R. S. 1968 Motion of a fluid in a curved tube Proc. Roy. Soc. 307 37 53
  7. Smith F.T Fluid Flow into a Curved Pipe Proc.Roy.Soc 1976
  8. Ito H. Friction Factors for Turbulent Flow in Curved Pipes J. Basic Eng 81 123 134 1959
  9. Srinivasan S. , Nadapurkar S. & Holland F.A Friction factors for coils Trans Inst. Chem. Eng 1970
  10. Naphon P. & Wongwises S. An Experimental Study on the In-Tube Convective Heat Transfer Coefficients in a Spiral Coiled Heat Exchanger Int.C Heat Mass Transfer 2002
  11. Kalb C.E & Seader J.D Fully Developed viscous flow heat transfer in curved circular tubes with uniform wall temperature J. Chem Eng 20 340 346
  12. Mori Y. and Nakayama W. Study on forced convective heat transfer in curved pipes Int J.Heat Mass Transfer 8 67 1965
  13. Seban R. & McLaughlin E. Heat transfer in Tube Coils with Laminar and Turbulent Flow Int J.Heat Mass Transfer 6 387 395 1962
  14. Adler M. Stömung in Gekrümmten Rohren Z. Angrew, Math.Mech 14 257 275
  15. Guo L. , Cheng X. , Feng CZ. , Bai B. Transient Convective Heat Transfer in a Helical Coiled Tube with Pulsatile Flow Int J. Heat Mass Transfer 1998
  16. Pethukov B.S Heat Transfer and friction in turbulent Pipe Flow with Variable Physical Properties Adv Heat Transfer 1970
  17. Singh , M. P. Entry Flow in a Curved Pipe J. Fluid Mech. 65 517 539 1974
  18. Bovendeerd , P. H. M. , Steenhoven , A. A. V. , Vosse , F. N. V. D. & Vossers , G. 1987 Steady entry flow in a curved pipe J. Fluid Mech. 177 233 246
  19. Wang X. , Zhang N. Numerical analysis of heat transfer in pulsating turbulent flow in a pipe J. Int. Heat and Mass transfer 48 2005
  20. Denton J. Loss Mechanisms in Turbomachines, The 1993 IGTI Scholar Lecture Journal of Turbomachinery 115 621 656 1993
  21. Hart J. et al Single and Two-Phase flow through Helically Coiled Tubes J. Chemical Engineering Science 43 775 783 1988
  22. Haehndel K. Development of Exhaust Surface Temperature Models through the numerical prediction of 1D/3D CFD coupling Diplomarbiet Thesis BMW Group 2009
  23. Hellström F. Numerical Computations of Unsteady Flow in Turbocharges PhD thesis KTH Mech Stockholm, Sweden 2010

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