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12 - Terrestrial combustion: feedback to the stars

Published online by Cambridge University Press:  11 August 2009

E. S. Oran
Affiliation:
Laboratory for Computational Physics and Fluid Dynamics U.S. Naval Research Laboratory Washington, DC 20375 USA
Peter Höflich
Affiliation:
University of Texas, Austin
Pawan Kumar
Affiliation:
University of Texas, Austin
J. Craig Wheeler
Affiliation:
University of Texas, Austin
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Summary

Abstract

This paper describes how we have used numerical simulations and laboratory combustion experiments to learn about Type Ia thermonuclear supernova explosions. We discuss detonations, deflagrations, and the transition from deflagrations to detonations, and how these relate to exploding white dwarf stars.

Introduction

This paper is for Craig Wheeler (aka Professor J. Craig Wheeler, Captain, ISS Bunbry, often stationed in the Virgo Cluster), who has been a good friend and fellow traveler for many years. Craig is wonderfully enthusiastic, persistently curious, and always asking those painfully “simple” questions for which we have no answers. He has motivated and driven research programs that have brought combustion science to astrophysics.

A cursory study of the multivolume Proceedings of the Combustion Institute shows that combustion can now be loosely defined as the result of fluid dynamics combined with exothermic reactions, and everything this implies. The definition has expanded with the understanding of the controlling phenomena and the range of applications. In the early 1900's, there was combustion and detonation, and the concepts seemed separated. Combustion was defined as oxidation with energy release, with an emphasis on specific chemical reactions. Detonation studies emphasized the fluid dynamics with shocks and explosions. Now these fields have merged and expanded. We now consider exothermic reactions, including the physics, chemistry, structure and dynamics of flames and detonations, including the production products such as pollutants, soot, diamonds, fullerenes, microparticles, and nanoparticles.

The purpose of this paper is to introduce some aspects of combustion and the combustion community to astrophysicists.

Type
Chapter
Information
Cosmic Explosions in Three Dimensions
Asymmetries in Supernovae and Gamma-Ray Bursts
, pp. 100 - 109
Publisher: Cambridge University Press
Print publication year: 2004

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References

Boisseau, J. R., Wheeler, J. C., Oran, E. S., & Khokhlov, A. M., 1996. Astrophy. J., 471, L99–L102CrossRef
Eisner, T., & Aneshansley, D. J., 1999, Proc. Natl. Acad. Sci., 96, 9705–9707CrossRef
Gamezo, V. N., Wheeler, J. C., Khokhlov, A. M., & Oran, E. S., 1999. Astrophys. J., 512, 827–842CrossRef
Gamezo, V. N., Khokhlov, A. M., and Oran, E. S., 2003. — this volume
Gamezo, V. N., Khokhlov, A. M., Oran, E. S., Chtchelkanova, A. Y., & Rosenberg, R. O., 2003. Science, 299 (January 3), 77–81CrossRef
Khokhlov, A. M., 2003—this volume
Khokhlov, A. M., & Oran, E. S., 1999, Combust. Flame, 119, 400–416CrossRef
Khokhlov, A. M., Oran, E. S., & Thomas, G. O., 1999. Combust. Flame, 117, 323–339CrossRef
Lee, J. H. S., Knystautas, R., & Yoshikawa, N., 1978. Acta Astro., 5, 971–982CrossRef
Meyer, J. W, & Oppenheim, A. K., 1971. Combust. Flame, 17, 65–68CrossRef
Oran, E. S., & Kailasanath, K, 1987. Physics News, AIP, New York
Oran, E. S., Young, T. R., Boris, J. P., Picone, J. M., & Edwards, D. H., 1982. Proc. Combust. Inst., 19, 573CrossRef
Thomas, G., Bambrey, R., & Brown, C., 2001. Combust. Theory Mod., 5, 573–594CrossRef
Zajac, L. J., & Oppenheim, A. K., 1971. AIAA J., 9, 545–553
Zeldovich, Ya. B., Librovich, V. B., Makhviladze, G. M., & Sivashinsky, G. I, 1970. Astro. Acta, 15, 313–321

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