Venkat Raman
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A consistent LES/filtered-density function formulation for the simulation of turbulent flames with detailed chemistry
V Raman, H Pitsch
Proceedings of the Combustion Institute 31 (2), 1711-1719, 2007
Hybrid large-eddy simulation/Lagrangian filtered-density-function approach for simulating turbulent combustion
V Raman, H Pitsch, RO Fox
Combustion and Flame 143 (1-2), 56-78, 2005
Large-eddy simulation of a bluff-body-stabilized non-premixed flame using a recursive filter-refinement procedure
V Raman, H Pitsch
Combustion and flame 142 (4), 329-347, 2005
Optimized reaction mechanism rate rules for ignition of normal alkanes
L Cai, H Pitsch, SY Mohamed, V Raman, J Bugler, H Curran, SM Sarathy
Combustion and Flame 173, 468-482, 2016
Flux corrected finite volume scheme for preserving scalar boundedness in reacting large-eddy simulations
M Herrmann, G Blanquart, V Raman
AIAA journal 44 (12), 2879-2886, 2006
Dry powder inhaler device influence on carrier particle performance
MJ Donovan, SH Kim, V Raman, HD Smyth
Journal of pharmaceutical sciences 101 (3), 1097-1107, 2012
Hybrid finite-volume/transported PDF simulations of a partially premixed methane–air flame
V Raman, RO Fox, AD Harvey
Combustion and Flame 136 (3), 327-350, 2004
Development of a dynamic model for the subfilter scalar variance using the concept of optimal estimators
G Balarac, H Pitsch, V Raman
Physics of fluids 20 (3), 2008
Modeling of fine-particle formation in turbulent flames
V Raman, RO Fox
Annual Review of Fluid Mechanics 48, 159-190, 2016
Large-eddy simulation of a supersonic inlet-isolator
H Koo, V Raman
AIAA Journal 50 (7), 1596-1613, 2012
Mixing and detonation structure in a rotating detonation engine with an axial air inlet
T Sato, F Chacon, L White, V Raman, M Gamba
Proceedings of the Combustion Institute 38 (3), 3769-3776, 2021
Numerical simulation of a methane-oxygen rotating detonation rocket engine
S Prakash, V Raman, CF Lietz, WA Hargus Jr, SA Schumaker
Proceedings of the Combustion Institute 38 (3), 3777-3786, 2021
A quadrature-based LES/transported probability density function approach for modeling supersonic combustion
H Koo, P Donde, V Raman
Proceedings of the Combustion Institute 33 (2), 2203-2210, 2011
LES/PDF based modeling of soot–turbulence interactions in turbulent flames
P Donde, V Raman, ME Mueller, H Pitsch
Proceedings of the Combustion Institute 34 (1), 1183-1192, 2013
Analysis of the detonation wave structure in a linearized rotating detonation engine
S Prakash, R Fiévet, V Raman, J Burr, KH Yu
AIAA Journal 58 (12), 5063-5077, 2020
Emerging trends in numerical simulations of combustion systems
V Raman, M Hassanaly
Proceedings of the Combustion Institute 37 (2), 2073-2089, 2019
Eulerian transported probability density function sub-filter model for large-eddy simulations of turbulent combustion
V Raman, H Pitsch, RO Fox
Combustion Theory and Modelling 10 (3), 439-458, 2006
Bayesian analysis of syngas chemistry models
K Braman, TA Oliver, V Raman
Combustion Theory and Modelling 17 (5), 858-887, 2013
Numerical investigation of shock-train response to inflow boundary-layer variations
R Fiévet, H Koo, V Raman, AH Auslender
AIAA Journal 55 (9), 2888-2901, 2017
Large-eddy simulation of soot formation in a model gas turbine combustor
H Koo, M Hassanaly, V Raman, ME Mueller, K Peter Geigle
Journal of Engineering for Gas Turbines and Power 139 (3), 031503, 2017
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