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Mechanisms

Publications

"An Automatic Procedure for the Simplification of Chemical Kinetics Mechanisms based on CSP"
M. VALORANI, F.CRETA, D.A. GOUSSIS, H.N. NAJM, J. C. LEE. (2006).
Combustion and Flame. vol. 146 (Issues 1-2), pp. 29-51 ISSN: 0010-2180.
doi:10.1016/j.combustflame.2006.03.011

"A CSP-Based Skeletal Mechanism Generation Procedure:  Auto-Ignition and Premixed Laminar flames in n-Heptane/Air Mixtures"
M. VALORANI, D.A. GOUSSIS, H.N. NAJM, F. CRETA, F. DONATO
ECCOMAS CFD 2006,
Egmont aan Zee, The Netherlands, September, 5-8, 2006

"Skeletal Mechanism Generation and Analysis for n-Heptane with CSP"
M. VALORANI M., F. CRETA, F. DONATO, H.N. NAJM, D.A. GOUSSIS (2007).
Proc. Comb. Institute vol. 31, pp. 483-490 ISSN: 1540-7489.
doi:10.1016/j.proci.2006.07.027.

"Skeletal mechanism generation with CSP and validation for premixed n-heptane flames"
J. PRAGER, H.N. NAJM, M. VALORANI, D.A. GOUSSIS
Proc. Comb. Institute  32  509--517  (2009)
http://dx.medra.org/10.1016/j.proci.2008.06.074

“Physical Understanding of Complex Multiscale Biochemical Models viaAlgorithmic Simplification: Glycolysis in Saccharomyces Cerevisiae”, P. Kourdis, R. Steuer, and D.A. Goussis, Physica D, accepted, 2010.

“Analysis of Methane-Air Edge Flame Structure”, H.N. Najm, M. Valorani, and D.A. Goussis, Combustion Theory and Modelling, accepted, 2010.

“Skeletal Mechanism Generation with CSP and Validation for Premixed n-heptaneFlames”, J. Prager, H.N. Najm, M. Valorani, and D.A. Goussis, Proc. Comb. Institute, 33:509-517, 2009.

“Skeletal Mechanism Generation and Analysis for n-Heptane with CSP”, M. Valorani, F. Creta, F. Donato, H.N. Najm, and D.A. Goussis, Proc. Comb. Institute, 31:483-490, 2007.

“Understanding Flame Kinetics from Reduced Mechanisms”, G. Skevis, D.A. Goussis, E. Mastorakos, Int. J. of Alternative Propulsion, 1:216-227, 2007.

“A CSP and Tabulation Based Adaptive Chemistry Model”, J.C. Lee, H.N. Najm, S. Lefanzi, J. Ray, M. Frenklach, M. Valorani and D.A. Goussis, Combustion Theory and Modelling, 11:73-102, 2007.

“Model Reduction and Physical Understanding of Slowly Oscillating Processes: the Circadian Cycle”, D.A. Goussis and H.N. Najm, SIAM Multiscale Modeling and Simulation, 5:1297-1332, 2006.

“Chemical Kinetics Mechanism Simplification via CSP”, M. Valorani, F. Creta, D.A. Goussis, H.N. Najm, J.C. Lee, Combustion and Flame, 146:29-51, 2006.

“Reduction of the RACM scheme using CSP in Atmospheric Chemistry Modeling”, T. Lovas, E. Mastorakos and D.A. Goussis, J. of Geophysical Research - Atmosphere, 111:1-16, 2006.

“An Efficient Iterative Algorithm for the Approximation of the Fast and Slow Dynamics of Stiff Systems”, D.A. Goussis and M. Valorani, J. Comp. Physics, 214:316-346, 2006.

“Higher Order Corrections in the Approximation of Inertial Manifolds and the Construction of Simplified Problems with the CSP Method”, M. Valorani, D.A. Goussis, F. Creta and H.N. Najm, J. Comp. Physics, 209:754-786, 2005.

“Reactive and Reactive/Diffusive Time Scales in Stiff Reaction-Diffusion Systems”, D.A. Goussis, M. Valorani, F. Creta and H.N. Najm, Progress in Comp. Fluid Mechanics, 5:316-326, 2005.

“The Development of a Simple Scale Adaptive Reactive Pollutant Dispersion Model”, M.K. Neophytou, D.A. Goussis, E. Mastorakos and R.E. Britter, Atmospheric Environment, 39:2787-2794 , 2005.

“Reduced Chemical Mechanisms for Atmospheric Pollution Using CSP”, E. Mastorakos, M.K. Neophytou, D.A. Goussis and M. van Loon, Atmospheric Environment, 38:3661-3673, 2004.

“Numerical Investigation of Methane Combustion under Mixed Air-Steam Turbine Conditions”, G. Skevis, A. Chrissanthopoulos, D.A. Goussis, E. Mastorakos, M.A.F. Derksen and J.B.W. Kok, Applied Thermal Engineering, 24:1607-1618, 2004.

“CSP Analysis of a Transient Flame Vortex Interaction: Time Scales and Manifolds”, M. Valorani, H.N. Najm and D.A. Goussis, Combustion and Flame, 134:35-53, 2003.

“Simulations of Premixed Combustion in Porous Media”, D. Diamantis, E. Mastorakos and D.A. Goussis, Combustion Theory and Modeling, 6:383-411, 2002.

“Explicit Time-Scale Splitting Algorithms for Stiff Problems: Auto-Ignition of Gaseous Mixtures behind a Steady Shock”, M. Valorani and D.A. Goussis, J. Comp. Physics, 169:44-79, 2001.

“An Algorithm for the Construction of Global Reduced Mechanisms with CSP Data”, A. Massias, D. Diamantis, E. Mastorakos and D.A. Goussis, Combustion and Flame, 117:685-708, 1999.

“Global Reduced Mechanisms for Methane and Hydrogen Combustion and Nitric Oxide Formation Constructed with CSP Data”, A. Massias, D. Diamantis, E. Mastorakos and D.A. Goussis, Combustion Theory and Modeling, 3:233-257, 1999.

“Asymptotic Solution of Stiff PDE's - The Reaction Diffusion Equation”, M. Hadjinicolaou and D.A. Goussis, SIAM J. Scientific Computing, 20:781-810, 1998.

“On the Construction and Use of Reduced Chemical Kinetics Mechanisms Produced on the Basis of Given Algebraic Relations”, D.A. Goussis, J. Comp. Physics, 128:261-273, 1996.

“The CSP Method for Simplifying Kinetics”, S.H. Lam and D.A. Goussis, Int. J. Chem. Kinet., 26:461-486, 1994.

“A Study of Homogeneous Methanol Oxidation Kinetics Using CSP”, D.A. Goussis and S.H. Lam, Proc. Comb. Institute, 24: 113-120, 1992.

“Understanding Complex Chemical Kinetics with Computational Singular Perturbation”, S.H. Lam and D.A. Goussis, Proc. Comb. Institute, 22:931-941, 1988.