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Tamas Turanyi
Tamas Turanyi
Eötvös Loránd University Budapest
Verified email at chem.elte.hu - Homepage
Title
Cited by
Cited by
Year
Sensitivity analysis of complex kinetic systems. Tools and applications
T Turányi
Journal of mathematical chemistry 5 (3), 203-248, 1990
7941990
Mathematical tools for the construction, investigation and reduction of combustion mechanisms
AS Tomlin, T Turányi, MJ Pilling
Comprehensive chemical kinetics 35, 293-437, 1997
503*1997
Principal component analysis of kinetic models
S Vajda, P Valko, T Turanyi
International journal of chemical kinetics 17 (1), 55-81, 1985
4801985
Analysis of kinetic reaction mechanisms
T Turányi, AS Tomlin
Springer Berlin Heidelberg, 2014
3942014
Development and testing of a comprehensive chemical mechanism for the oxidation of methane
KJ Hughes, T Turányi, AR Clague, MJ Pilling
International journal of chemical kinetics 33 (9), 513-538, 2001
3832001
Mechanistic details of the oscillatory Belousov-Zhabotinskii reaction
L Gyorgyi, T Turányi, RJ Field
Journal of physical chemistry 94 (18), 7162-7170, 1990
3051990
On the error of the quasi-steady-state approximation
T Turanyi, AS Tomlin, MJ Pilling
The Journal of Physical Chemistry 97 (1), 163-172, 1993
2641993
Reduction of large reaction mechanisms
T Turanyi
New journal of chemistry (1987) 14 (11), 795-803, 1990
2641990
Reaction rate analysis of complex kinetic systems
T Turanyi, T Berces, S Vajda
International Journal of Chemical Kinetics 21 (2), 83-99, 1989
2391989
Applications of sensitivity analysis to combustion chemistry
T Turányi
Reliability Engineering & System Safety 57 (1), 41-48, 1997
2291997
Mechanism reduction for the oscillatory oxidation of hydrogen: sensitivity and quasi-steady-state analyses
AS Tomlin, MJ Pilling, T Turányi, JH Merkin, J Brindley
Combustion and flame 91 (2), 107-130, 1992
2271992
Reduction of very large reaction mechanisms using methods based on simulation error minimization
T Nagy, T Turányi
Combustion and Flame 156 (2), 417-428, 2009
2092009
Comparison of the performance of several recent hydrogen combustion mechanisms
C Olm, IG Zsély, R Pálvölgyi, T Varga, T Nagy, HJ Curran, T Turányi
Combustion and Flame 161 (9), 2219-2234, 2014
1832014
Parameterization of reaction mechanisms using orthonormal polynomials
T Turanyi
Computers & chemistry 18 (1), 45-54, 1994
1721994
Optimization of a hydrogen combustion mechanism using both direct and indirect measurements
T Varga, T Nagy, C Olm, IG Zsély, R Pálvölgyi, É Valkó, G Vincze, ...
Proceedings of the Combustion Institute 35 (1), 589-596, 2015
1712015
Determination of rate parameters based on both direct and indirect measurements
T Turányi, T Nagy, IG Zsély, M Cserháti, T Varga, BT Szabó, I Sedyo, ...
International Journal of Chemical Kinetics 44 (5), 284-302, 2012
1572012
Development of a joint hydrogen and syngas combustion mechanism based on an optimization approach
T Varga, C Olm, T Nagy, IG Zsély, É Valkó, R Pálvölgyi, HJ Curran, ...
International journal of chemical kinetics 48 (8), 407-422, 2016
1462016
Comparison of the performance of several recent syngas combustion mechanisms
C Olm, IG Zsély, T Varga, HJ Curran, T Turányi
Combustion and Flame 162 (5), 1793-1812, 2015
1422015
Effect of the uncertainty of kinetic and thermodynamic data on methane flame simulation results
T Turányi, L Zalotai, S Dóbé, T Bérces
Physical Chemistry Chemical Physics 4 (12), 2568-2578, 2002
1392002
Uncertainty of Arrhenius parameters
T Nagy, T Turanyi
International Journal of Chemical Kinetics 43 (7), 359-378, 2011
1272011
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