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Effect of finite-rate chemistry and unequal Schmidt numbers on turbulent non-premixed flames modeled with single-step chemistry

机译：有限速率化学和不等施密特数对单步化学模拟湍流非预混火焰的影响

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The interaction between a quasi-laminar flame and a turbulent flowfield is investigated through direct numerical simulations (DNS) of reacting flow in two- and three-dimensional domains. Effects due to finite-rate chemistry are studied using a single step global reaction A (fuel) B (oxidizer) yields P (product), and by varying a global Damkoehler number, as a result of which the turbulence-chemistry interaction in the flame is found to generate a wide variety of conditions, ranging from near-equilibrium to near-extinction. Differential diffusion effects are studied by changing the Schmidt number of one reactive species to one-half. It is observed that laminar flamelet response is followed within the turbulent flowfield, except in regions where transient effects seem to dominate.

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Chen, J. H.; Mahalingam, S.; Puri, I. K.; Vervisch, L.;
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年度 1992
页码 1-21
总页数 21
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
CHEMICAL REACTIONS; COMPUTATIONAL FLUID DYNAMICS; FLAME PROPAGATION; FLOW DISTRIBUTION; REACTING FLOW; FLAMES; SCHMIDT NUMBER; TURBULENT FLOW;

机译：化学反应;计算流体动力学;火焰传播;流量分配;反应流动;火焰; sCHmIDT号码;湍流;

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4. Validation of sub-grid scale finite-rate chemistry models for turbulent diffusion flames [C] . Amin, Emad In: Computational Fluid Dynamics Conference, 14th, Norfolk, VA, June 28-July 1, 1999, Collection of Technical Papers. Vol. 2 (A99-33467 08-34), Reston, VA, American Institute of Aeronautics and Astronautics, 1999 . 1999

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6. Modeling flame extinction and reignition in large eddy simulations with fast chemistry [O] . J.P. White, S. Vilfayeau, A.W. Marshall, -1

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7. Large Eddy Simulation of a Turbulent Nonpremixed Jet Flame Using a Finite-Rate Chemistry Model [O] . Pisciuneri Patrick Henry 2009

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Effect of finite-rate chemistry and unequal Schmidt numbers on turbulent non-premixed flames modeled with single-step chemistry

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