This content is not included in your SAE MOBILUS subscription, or you are not logged in.
Analysis of Unsteady Heat Transfer on Periodical Flow in Intake Port Model
ISSN: 0148-7191, e-ISSN: 2688-3627
Published April 20, 2009 by SAE International in United States
Annotation ability available
The experiments were done in order to obtain the fundamental information that would be needed to build a physical model which expresses the heat transfer phenomena in the intake port model and manifold. In the experiments, the heating conditions and the period of the cyclic change of the gas velocity were changed as experimental parameters. In addition to those parameters, the Strouhal number was applied to express oscillating flow. As a result, the heat transfer in the experiments became clear, and the equations were obtained to show the Nusselt number using the Reynolds number, the Graetz number and the Strouhal number.
|Journal Article||A New Tool to Perform Global Energy Balances in DI Diesel Engines|
|Technical Paper||Precise Measurement of Heat Transfer to the Inlet Air using Intake Port Model|
|Technical Paper||Thermal and Mechanical Behavior of an L-4 Engine|
CitationSuzuki, T., Odakura, M., Oguri, Y., and Uchida, K., "Analysis of Unsteady Heat Transfer on Periodical Flow in Intake Port Model," SAE Technical Paper 2009-01-1507, 2009, https://doi.org/10.4271/2009-01-1507.
- Depcik, C. et al SAE Paper, No. 2002-01-0372 2002
- Grandin, B. et al SAE Paper, No. 2000-01-2831 2000
- Shayler, P. J. et al SAE Paper, No. 960273 1996
- Schurov, S. M. et al SAE Paper, No. 941874 1994
- Bauer, W. et al SAE Paper, No. 961997 1996
- Bohac, S. et al SAE Paper, No. 960073 1996
- Yoshida M. Tominaga, K. et al Transactions of the Japan Society of Mechanical Engineers 1999 341 346
- Uchida, K. et al JSAE Review of Automotive Engineering 28 3 2007 321 328 2007 329 335
- The Japan Society of Mechanical Engineers, JSME Data Book: Heat Transfer 4th Edition 2001 44 71