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Filtered mass density function for large-eddy simulation of turbulent reacting flows
A methodology termed the ‘filtered mass density function’ (FMDF) is developed and implemented for large-eddy simulation (LES) of variable-density chemically reacting turbulent flows at low MachExpand
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Filtered density function for large eddy simulation of turbulent reacting flows
A methodology termed the “filtered density function” (FDF) is developed and implemented for large eddy simulation (LES) of chemically reacting turbulent flows. In this methodology, the effects of theExpand
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Velocity filtered density function for large eddy simulation of turbulent flows
A methodology termed the “velocity-scalar filtered density function” (VSFDF) is developed and implemented for large eddy simulation (LES) of turbulent flows. In this methodology, the effects of theExpand
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Large eddy simulation of a turbulent nonpremixed piloted methane jet flame (Sandia Flame D)
Abstract Large eddy simulation (LES) is conducted of the Sandia Flame D [Proc. Combust. Inst. 27 (1998) 1087, Sandia National Laboratories (2004)], which is a turbulent piloted nonpremixed methaneExpand
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Large-eddy simulation of a dispersed particle-laden turbulent round jet
The numerical results obtained by large-eddy simulation (LES) of a particle-laden axisymmetric turbulent jet are compared with the available experimental data. The results indicate that with a newExpand
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Characteristics of chemically reacting compressible homogeneous turbulence
Direct numerical simulations (DNS) are conducted to study the turbulence-chemical reaction interactions in homogeneous decaying compressible fluid flows. The reaction is of a single-step irreversibleExpand
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Large scale simulations of two-dimensional nonpremixed methane jet flames
Abstract Direct numerical simulation (DNS) and large eddy simulation (LES) of two-dimensional nonpremixed methane jet flames are conducted to assess the performance of subgrid-scale LES models andExpand
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A high-order finite difference method for numerical simulations of supersonic turbulent flows
This paper describes a new class of three-dimensional finite difference schemes for high-speed turbulent flows in complex geometries based on the high-order monotonicity-preserving (MP) method.Expand
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Large-Eddy Simulations of Turbulent Flows in an Axisymmetric Dump Combustor
A hybrid Eulerian-Lagrangian, mathematical/computational methodology is developed and evaluated for large-eddy simulations of turbulent combustion in complex geometries. The formulation forExpand
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Compressible Scalar Filtered Mass Density Function Model for High-Speed Turbulent Flows
The scalar filtered mass density function model is further extended and employed for large-eddy simulations of high-speed turbulent mixing and reacting flows. The model is implemented through aExpand
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