Computer generated pyrolysis modeling: on-the-fly generation of species, reactions, and rates LJ Broadbelt, SM Stark, MT Klein Industrial & Engineering Chemistry Research 33 (4), 790-799, 1994 | 351 | 1994 |
Solvent effects during reactions in supercritical water SH Townsend, MA Abraham, GL Huppert, MT Klein, SC Paspek Industrial & engineering chemistry research 27 (1), 143-149, 1988 | 280 | 1988 |
The delplot technique: a new method for reaction pathway analysis NA Bhore, MT Klein, KB Bischoff Industrial & engineering chemistry research 29 (2), 313-316, 1990 | 269 | 1990 |
Primary and secondary lignin pyrolysis reaction pathways HE Jegers, MT Klein Industrial & Engineering Chemistry Process Design and Development 24 (1 …, 1985 | 229 | 1985 |
Model pathways in lignin thermolysis. 1. Phenethyl phenyl ether MT Klein, PS Virk Industrial & Engineering Chemistry Fundamentals 22 (1), 35-45, 1983 | 222 | 1983 |
Modeling of lignin thermolysis MT Klein, PS Virk Energy & Fuels 22 (4), 2175-2182, 2008 | 176* | 2008 |
Polynuclear aromatic hydrocarbons hydrogenation. 1. Experimental reaction pathways and kinetics SC Korre, MT Klein, RJ Quann Industrial & engineering chemistry research 34 (1), 101-117, 1995 | 174 | 1995 |
Reaction pathway analysis of thermal and catalytic lignin fragmentation by use of model compounds SJ Hurff, MT Klein Industrial & engineering chemistry fundamentals 22 (4), 426-430, 1983 | 141 | 1983 |
Asphaltene reaction pathways. 2. Pyrolysis of n-pentadecylbenzene PE Savage, MT Klein Industrial & Engineering Chemistry Research 26 (3), 488-494, 1987 | 140 | 1987 |
Asphaltene and resid pyrolysis. 2. The effect of reaction environment on pathways and selectivities M Yasar, DM Trauth, MT Klein Energy & fuels 15 (3), 504-509, 2001 | 138 | 2001 |
Monte Carlo simulation of complex reaction systems: molecular structure and reactivity in modelling heavy oils M Neurock, C Libanati, A Nigam, MT Klein Chemical Engineering Science 45 (8), 2083-2088, 1990 | 138 | 1990 |
Molecular representation of complex hydrocarbon feedstocks through efficient characterization and stochastic algorithms M Neurock, A Nigam, D Trauth, MT Klein Chemical engineering science 49 (24), 4153-4177, 1994 | 129 | 1994 |
Hydrolysis in supercritical water: identification and implications of a polar transition state GL Huppert, BC Wu, SH Townsend, MT Klein, SC Paspek Industrial & engineering chemistry research 28 (2), 161-165, 1989 | 125 | 1989 |
Asphaltene reaction pathways. 3. Effect of reaction environment PE Savage, MT Klein, SG Kukes Energy & Fuels 2 (5), 619-628, 1988 | 121 | 1988 |
Asphaltene reaction pathways. 1. Thermolysis PE Savage, MT Klein, SG Kukes Industrial & Engineering Chemistry Process Design and Development 24 (4 …, 1985 | 117 | 1985 |
Molecular modeling in heavy hydrocarbon conversions MT Klein, G Hou, R Bertolacini, LJ Broadbelt, A Kumar CRC Press, 2005 | 116 | 2005 |
Dibenzyl ether as a probe into the supercritical fluid solvent extraction of volatiles from coal with water SH Townsend, MT Klein Fuel 64 (5), 635-638, 1985 | 112 | 1985 |
Solvent effects on reactions in supercritical fluids BC Wu, MT Klein, SI Sandler Industrial & engineering chemistry research 30 (5), 822-828, 1991 | 110 | 1991 |
Hydrolysis in supercritical water: Solvent effects as a probe of the reaction mechanism MT Klein, LA Torry, BC Wu, SH Townsend, SC Paspek The Journal of Supercritical Fluids 3 (4), 222-227, 1990 | 107 | 1990 |
Termination of computer-generated reaction mechanisms: species rank-based convergence criterion LJ Broadbelt, SM Stark, MT Klein Industrial & engineering chemistry research 34 (8), 2566-2573, 1995 | 96 | 1995 |