| Cellulose pyrolysis kinetics: the current state of knowledge MJJ Antal, G Varhegyi Industrial & engineering chemistry research 34 (3), 703-717, 1995 | 1204 | 1995 |
| Thermogravimetric analysis and devolatilization kinetics of wood MG Grønli, G Várhegyi, C Di Blasi Industrial & Engineering Chemistry Research 41 (17), 4201-4208, 2002 | 907 | 2002 |
| Kinetic modeling of biomass pyrolysis G Varhegyi, MJ Antal Jr, E Jakab, P Szabó Journal of analytical and Applied Pyrolysis 42 (1), 73-87, 1997 | 710 | 1997 |
| Kinetics of the thermal decomposition of cellulose, hemicellulose, and sugarcane bagasse G Varhegyi, MJ Antal Jr, T Szekely, P Szabo Energy & fuels 3 (3), 329-335, 1989 | 427 | 1989 |
| Cellulose pyrolysis kinetics: revisited MJ Antal, G Varhegyi, E Jakab Industrial & engineering chemistry research 37 (4), 1267-1275, 1998 | 407 | 1998 |
| A round-robin study of cellulose pyrolysis kinetics by thermogravimetry M Grønli, MJ Antal, G Várhegyi Industrial & engineering chemistry research 38 (6), 2238-2244, 1999 | 376 | 1999 |
| Productive and parasitic pathways in dilute acid-catalyzed hydrolysis of cellulose WS Mok, MJ Antal Jr, G Varhegyi Industrial & engineering chemistry research 31 (1), 94-100, 1992 | 320 | 1992 |
| Is the Broido-Shafizadeh model for cellulose pyrolysis true? G Varhegyi, E Jakab, MJ Antal Jr Energy & fuels 8 (6), 1345-1352, 1994 | 296 | 1994 |
| Thermal decomposition of polypropylene in the presence of wood-derived materials E Jakab, G Varhegyi, O Faix Journal of Analytical and Applied Pyrolysis 56 (2), 273-285, 2000 | 286 | 2000 |
| Formation of charcoal from biomass in a sealed reactor WSL Mok, MJ Antal Jr, P Szabo, G Varhegyi, B Zelei Industrial & engineering chemistry research 31 (4), 1162-1166, 1992 | 237 | 1992 |
| Thermogravimetric study of biomass pyrolysis kinetics. A distributed activation energy model with prediction tests G Várhegyi, B Bobály, E Jakab, H Chen Energy & Fuels 25 (1), 24-32, 2011 | 216 | 2011 |
| Simultaneous thermogravimetric-mass spectrometric studies of the thermal decomposition of biopolymers. 1. Avicel cellulose in the presence and absence of catalysts G Varhegyi, MJ Antal Jr, T Szekely, F Till, E Jakab Energy & fuels 2 (3), 267-272, 1988 | 214 | 1988 |
| TG/MS, Py-GC/MS and THM-GC/MS study of the composition and thermal behavior of extractive components of Robinia pseudoacacia E Mészáros, E Jakab, G Várhegyi Journal of Analytical and Applied Pyrolysis 79 (1-2), 61-70, 2007 | 212 | 2007 |
| Decomposition of cellulose and glucose in hot-compressed water under catalyst-free conditions T Minowa, Z Fang, T Ogi, G Várhegyi Journal of chemical engineering of Japan 31 (1), 131-134, 1998 | 201 | 1998 |
| Review of methods for improving the yield of charcoal from biomass MJ Antal Jr, WSL Mok, G Varhegyi, T Szekely Energy & Fuels 4 (3), 221-225, 1990 | 198 | 1990 |
| Thermogravimetric and reaction kinetic analysis of biomass samples from an energy plantation E Mészáros, G Várhegyi, E Jakab, B Marosvölgyi Energy & Fuels 18 (2), 497-507, 2004 | 165 | 2004 |
| Electrical and physical properties of carbonized charcoals K Mochidzuki, F Soutric, K Tadokoro, MJ Antal, M Tóth, B Zelei, ... Industrial & Engineering Chemistry Research 42 (21), 5140-5151, 2003 | 163 | 2003 |
| Aims and methods in non-isothermal reaction kinetics G Várhegyi Journal of Analytical and Applied Pyrolysis 79 (1-2), 278-288, 2007 | 153 | 2007 |
| Mathematical Modeling of Char Reactivity in Ar−O2 and CO2−O2 Mixtures G Várhegyi, P Szabó, E Jakab, F Till, JR Richard Energy & fuels 10 (6), 1208-1214, 1996 | 151 | 1996 |
| Kinetics of the thermal decomposition of cellulose in sealed vessels at elevated pressures. Effects of the presence of water on the reaction mechanism G Várhegyi, P Szabó, WSL Mok, MJ Antal Jr Journal of Analytical and Applied Pyrolysis 26 (3), 159-174, 1993 | 140 | 1993 |
Morten GronliNTNUVerified email at ntnu.no
