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Effects of Turbulence on Self-sustained Combustion in Premixed Flame Kernels: A Direct Numerical Simulation (DNS) Study
Authors:M. Klein  N. Chakraborty  R. S. Cant
Affiliation:(1) Technische Universitaet Darmstadt, Institut fuer Energie-und Kraftwerkstechnik, Petersenstr. 30, 64287 Darmstadt, Germany;(2) Department of Engineering, University of Liverpool, Brownlow Hill, Liverpool, L69 3GH, UK;(3) Cambridge University Engineering Department, Trumpington Street, Cambridge, CB2 1PZ, UK
Abstract:
The effects of mean flame radius and turbulence on self-sustained combustion of turbulent premixed spherical flames in decaying turbulence have been investigated using three-dimensional direct numerical simulations (DNS) with single step Arrhenius chemistry. Several flame kernels with different initial radius or initial turbulent field have been studied for identical conditions of thermo-chemistry. It has been found that for very small kernel radius the mean displacement speed may become negative leading ultimately to extinction of the flame kernel. A mean negative displacement speed is shown to signify a physical situation where heat transfer from the kernel overcomes the heat release due to combustion. This mechanism is further enhanced by turbulent transport and, based on simulations with different initial turbulent velocity fields, it has been found that self-sustained combustion is adversely affected by higher turbulent velocity fluctuation magnitude and integral length scale. A scaling analysis is performed to estimate the critical radius for self-sustained combustion in premixed flame kernels in a turbulent environment. The scaling analysis is found to be in good agreement with the results of the simulations.
Keywords:Direct numerical simulation  Turbulent premixed flame  Mean curvature  Critical radius  Ignition  Quenching
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