The Effect of Strain Rate on Diffusion Flames
- Creators
- Carrier, G. F.
- Fendell, F. E.
- Marble, F. E.
Abstract
Several steady state and time-dependent solutions to the compressible conservation laws describing direct one-step near-equilibrium irreversible exothermic burning of initially unmixed gaseous reactants, with Lewis-Semenov number unity, are presented. The quantitative investigation first establishes the Burke-Schumann thin-flame solution using the Shvab-Zeldovich formulation. Real flames do not have the indefinitely thin reaction zone associated with the Burke-Schumann solution. Singular perturbation analysis is used to provide a modification of the thin-flame solution which includes a more realistic reaction zone of small but finite thickness. The particular geometry emphasized is the un bounded counterflow such that there exists a spatially constant rate of strain along the flame. While the solutions for diffusion flames under a finite tangential strain rate may be of interest in and of themselves for laminar flow, the problems are motivated by the authors' belief that they are pertinent to the study of diffusion-flame burning in transitional and turbulent shear flows.
Additional Information
© 1975 Society for Industrial and Applied Mathematics. Received by the editors March 19, 1974. This work was supported in part by: Project SQUID, supported by the Office of Naval Research, Department of the Navy, under Contract N00014-67-A-0226-0005, NR-098-038 (F.E.F.); Office of Naval Research Contract N00014-67-A-0298-0033 and National Science Foundation Contract NSF-GP-34723 (G.F.C.). Presented by invitation at an International Symposium on Modern Developments in Fluid Dynamics in Honor of the 70th Birthday of Sydney Goldstein held at Haifa, Israel, December 16-23, 1973. The authors are very grateful to Dr. J. Eugene Broadwell of TRW Systems, Redondo Beach, California, for advice, criticism and encouragement.Attached Files
Published - 226_Carrier_GF_1975.pdf
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Additional details
- Eprint ID
- 21405
- Resolver ID
- CaltechAUTHORS:20101216-133642630
- N00014-67-A-0226-0005
- Office of Naval Research (ONR)
- NR-098-038
- Office of Naval Research (ONR)
- N00014-67-A-0298-0033
- Office of Naval Research (ONR)
- GP-34723
- NSF
- Created
-
2010-12-17Created from EPrint's datestamp field
- Updated
-
2021-11-09Created from EPrint's last_modified field
- Caltech groups
- Guggenheim Jet Propulsion Center
- Other Numbering System Name
- Guggenheim Jet Propulsion Center