Laminar burning velocities and transition to unstable flames in H2/O2/N2 and C3H8/O2/N2 mixtures |
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Authors: | S Kwon L-K Tseng GM Faeth |
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Affiliation: | Department of Aerospace Engineering, The University of Michigan, Ann Arbor, MI 48109-2140, USA |
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Abstract: | Effects of positive flame stretch on laminar burning velocities, and conditions for transition to unstable flames, were studied experimentally for freely propagating spherical flames at both stable and unstable preferential-diffusion conditions. The data base involved new measurements for H2/O2/N2 mixtures at values of flame stretch up to 7600 s?1, and existing measurements for C3H8/O2/N2 mixtures at values of flame stretch up to 900 s?1. Laminar burning velocities varied linearly with increasing Karlovitz numbers—either decreasing or increasing at stable or unstable preferential-diffusion conditions—yielding Markstein numbers that primarily varied with the fuel-equivalence ratio. Neutral preferential-diffusion conditions, however, were shifted toward the unstable side of the maximum laminar burning velocity condition that the simplest preferential-diffusion theories associate with neutral stability. All flames exhibited transition to unstable flames: unstable preferential-diffusion coditions yielded early transition to irregular flame surfaces, and stable preferential-diffusion conditions yielded delayed transition to cellular flames by hydrodynamic instability. Conditions for hydrodynamic instability transitions for H2/O2/N2 mixtures were consistent with an earlier correlation due to Groff for propane/air flames, based on the predictions of Istratov and Librovich. |
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