Follow
Zsely Istvan Gyula
Zsely Istvan Gyula
Associate Professor, Institute of Chemistry,Eötvös University
Verified email at chem.elte.hu
Title
Cited by
Cited by
Year
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
2292014
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
2122015
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
1882012
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
1822016
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
1652015
Local and global uncertainty analysis of complex chemical kinetic systems
J Zádor, IG Zsely, T Turányi
Reliability Engineering & System Safety 91 (10-11), 1232-1240, 2006
1322006
Local and global uncertainty analyses of a methane flame model
J Zádor, IG Zsély, T Turányi, M Ratto, S Tarantola, A Saltelli
The Journal of Physical Chemistry A 109 (43), 9795-9807, 2005
1252005
Uncertainty analysis of updated hydrogen and carbon monoxide oxidation mechanisms
IG Zsély, J Zádor, T Turányi
Proceedings of the Combustion Institute 30 (1), 1273-1281, 2005
1232005
Uncertainty of the rate parameters of several important elementary reactions of the H2 and syngas combustion systems
T Nagy, É Valkó, I Sedyó, IG Zsély, MJ Pilling, T Turányi
Combustion and Flame 162 (5), 2059-2076, 2015
922015
Uncertainty analysis of NO production during methane combustion
IG Zsély, J Zádor, T Turányi
International Journal of Chemical Kinetics 40 (11), 754-768, 2008
892008
An investigation of important gas-phase reactions of nitrogenous species from the simulation of experimental measurements in combustion systems
KJ Hughes, AS Tomlin, E Hampartsoumian, W Nimmo, IG Zsély, M Ujvári, ...
combustion and flame 124 (4), 573-589, 2001
832001
Kinetic analysis of ethyl iodide pyrolysis based on shock tube measurements
T Varga, IG Zsély, T Turányi, T Bentz, M Olzmann
International Journal of Chemical Kinetics 46 (6), 295-304, 2014
582014
Determination of rate parameters of key N/H/O elementary reactions based on H2/O2/NOx combustion experiments
M Kovács, M Papp, IG Zsély, T Turányi
Fuel 264, 116720, 2020
572020
Determination of rate parameters of cyclohexane and 1-hexene decomposition reactions
IG Zsély, T Varga, T Nagy, M Cserháti, T Turányi, S Peukert, ...
Energy 43 (1), 85-93, 2012
492012
Time scale and dimension analysis of a budding yeast cell cycle model
A Lovrics, A Csikász-Nagy, IG Zsély, J Zádor, T Turányi, B Novák
BMC bioinformatics 7, 1-11, 2006
482006
Reduction of a detailed kinetic model for the ignition of methane/propane mixtures at gas turbine conditions using simulation error minimization methods
IG Zsély, T Nagy, JM Simmie, HJ Curran
Combustion and Flame 158 (8), 1469-1479, 2011
472011
Testing of NH3/H2 and NH3/syngas combustion mechanisms using a large amount of experimental data
AG Szanthoffer, IG Zsély, L Kawka, M Papp, T Turányi
Applications in Energy and Combustion Science 14, 100127, 2023
422023
Comparison of methane combustion mechanisms using laminar burning velocity measurements
P Zhang, IG Zsély, M Papp, T Nagy, T Turányi
Combustion and Flame 238, 111867, 2022
392022
Comparison of methane combustion mechanisms using shock tube and rapid compression machine ignition delay time measurements
P Zhang, IG Zsély, V Samu, T Nagy, T Turányi
Energy & Fuels 35 (15), 12329-12351, 2021
392021
The influence of thermal coupling and diffusion on the importance of reactions: The case study of hydrogen–air combustion
IG Zsély, T Turányi
Physical Chemistry Chemical Physics 5 (17), 3622-3631, 2003
382003
The system can't perform the operation now. Try again later.
Articles 1–20