Tarek Echekki
Tarek Echekki
Professor, Mechanical and Aerospace Engineering, North Carolina State University
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Cited by
Cited by
Unsteady strain rate and curvature effects in turbulent premixed methane-air flames
T Echekki, JH Chen
Combustion and Flame 106 (1-2), 184-202, 1996
Turbulent combustion modeling: Advances, new trends and perspectives
T Echekki, E Mastorakos
Springer Science & Business Media, 2010
Direct numerical simulation of autoignition in non-homogeneous hydrogen-air mixtures
T Echekki, JH Chen
Combustion and Flame 134 (3), 169-191, 2003
A study of the laminar flame tip and implications for premixed turbulent combustion
T Poinsot, T Echekki, MG Mungal
Combustion science and technology 81 (1-3), 45-73, 1992
Analysis of the contribution of curvature to premixed flame propagation
T Echekki, JH Chen
Combustion and Flame 118 (1-2), 308-311, 1999
Statistics of flame displacement speeds from computations of 2-D unsteady methane-air flames
N Peters, P Terhoeven, JH Chen, T Echekki
Symposium (International) on Combustion 27 (1), 833-839, 1998
Structure and propagation of methanol–air triple flames
T Echekki, JH Chen
Combustion and Flame 114 (1-2), 231-245, 1998
‘One-dimensional turbulence’simulation of turbulent jet diffusion flames: model formulation and illustrative applications
T Echekki, AR Kerstein, TD Dreeben, JY Chen
Combustion and flame 125 (3), 1083-1105, 2001
The mechanism of two-dimensional pocket formation in lean premixed methane-air flames with implications to turbulent combustion
JH Chen, T Echekki, W Kollmann
Combustion and flame 116 (1-2), 15-48, 1999
Negative flame speed in an unsteady 2-D premixed flame: A computational study
IR Gran, T Echekki, JH Chen
Symposium (International) on Combustion 26 (1), 323-329, 1996
Flame speed measurements at the tip of a slot burner: Effects of flame curvature and hydrodynamic stretch
T Echekki, MG Mungal
Symposium (International) on combustion 23 (1), 455-461, 1991
Application of deep artificial neural networks to multi-dimensional flamelet libraries and spray flames
O Owoyele, P Kundu, MM Ameen, T Echekki, S Som
International Journal of Engine Research 21 (1), 151-168, 2020
Nonlinear reduction of combustion composition space with kernel principal component analysis
H Mirgolbabaei, T Echekki
Combustion and flame 161 (1), 118-126, 2014
A novel principal component analysis-based acceleration scheme for LES–ODT: An a priori study
H Mirgolbabaei, T Echekki
Combustion and Flame 160 (5), 898-908, 2013
Principal component transport in turbulent combustion: A posteriori analysis
T Echekki, H Mirgolbabaei
Combustion and Flame 162 (5), 1919-1933, 2015
A low-dimensional stochastic closure model for combustion large-eddy simulation
S Cao, T Echekki
Journal of Turbulence, N2, 2008
An ANN based hybrid chemistry framework for complex fuels
R Ranade, S Alqahtani, A Farooq, T Echekki
Fuel 241, 625-636, 2019
A nonlinear principal component analysis approach for turbulent combustion composition space
H Mirgolbabaei, T Echekki, N Smaoui
international journal of hydrogen energy 39 (9), 4622-4633, 2014
A simplified reaction rate model and its application to the analysis of premixed flames
JH Ferziger, T Echekki
Combustion science and technology 89 (5-6), 293-315, 1993
Toward computationally efficient combustion DNS with complex fuels via principal component transport
O Owoyele, T Echekki
Combustion Theory and Modelling 21 (4), 770-798, 2017
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