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 | 229 | 2014 |
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 | 212 | 2015 |
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 | 188 | 2012 |
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 | 182 | 2016 |
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 | 165 | 2015 |
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 | 132 | 2006 |
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 | 125 | 2005 |
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 | 123 | 2005 |
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 | 92 | 2015 |
Uncertainty analysis of NO production during methane combustion IG Zsély, J Zádor, T Turányi International Journal of Chemical Kinetics 40 (11), 754-768, 2008 | 89 | 2008 |
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 | 83 | 2001 |
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 | 58 | 2014 |
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 | 57 | 2020 |
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 | 49 | 2012 |
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 | 48 | 2006 |
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 | 47 | 2011 |
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 | 42 | 2023 |
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 | 39 | 2022 |
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 | 39 | 2021 |
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 | 38 | 2003 |