Journal of the Korean Society of Combustion (한국연소학회지)
- Volume 1 Issue 2
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- Pages.41-49
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- 1996
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- 1226-0959(pISSN)
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- 2466-2089(eISSN)
Nondimensional Analysis of Periodically Unstable Shock-Induced Combustion
주기적 불안정성을 가지는 충격파 유도 연소의 무차원 해석
- Published : 1996.12.31
Abstract
A numerical study is conducted to investigate the periodically unstable shock induced combustion around blunt bodies in stoichiometric hydrogen-air mixtures. Euler equations are spatially discretized by upwind-biased third order scheme and temporally integrated by Runge-Kutta method. Chemistry model used in this study involves 8 elementary kinetics steps and 7 species. At a constant Mach number, the effects of projectile size, inflow pressure and inflow temperature are examined with Lehr#s experimental condition as a reference. In addition to oscillation frequency, characteristic distances and time averaged values are found from the result to find an relation with dimensionless parameters. As a result, it is found that the effects of inflow pressure and body size are very similar and
Keywords
- shock-induced combustion;
- combustion instability;
- chemically reacting flow;
- Runge-Kutta method;
- higher order upwind scheme;
- shock stand-off distance;
- induction distance;
- $Damk{\ddot{o}}hler$ number;
- heat release parameter