Chemical model of coal devolatilization using percolation lattice statistics DM Grant, RJ Pugmire, TH Fletcher, AR Kerstein Energy & Fuels 3 (2), 175-186, 1989 | 619 | 1989 |
Chemical percolation model for devolatilization. 3. Direct use of carbon-13 NMR data to predict effects of coal type TH Fletcher, AR Kerstein, RJ Pugmire, MS Solum, DM Grant Energy & Fuels 6 (4), 414-431, 1992 | 527 | 1992 |
Progress in coal pyrolysis PR Solomon, TH Fletcher, RJ Pugmire Fuel 72 (5), 587-597, 1993 | 477 | 1993 |
The structure and reaction processes of coal KL Smith, LD Smoot, TH Fletcher, RJ Pugmire Springer Science & Business Media, 2013 | 399 | 2013 |
Chemical percolation model for devolatilization. 2. Temperature and heating rate effects on product yields TH Fletcher, AR Kerstein, RJ Pugmire, DM Grant Energy & Fuels 4 (1), 54-60, 1990 | 372 | 1990 |
Soot in coal combustion systems TH Fletcher, J Ma, JR Rigby, AL Brown, BW Webb Progress in Energy and Combustion Science 23 (3), 283-301, 1997 | 242 | 1997 |
Development and application of a correlation of 13C NMR chemical structural analyses of coal based on elemental composition and volatile matter content D Genetti, TH Fletcher, RJ Pugmire Energy & Fuels 13 (1), 60-68, 1999 | 231 | 1999 |
13C NMR Analysis of Soot Produced from Model Compounds and a Coal MS Solum, AF Sarofim, RJ Pugmire, TH Fletcher, H Zhang Energy & Fuels 15 (4), 961-971, 2001 | 187 | 2001 |
Solid-state 13C NMR characterization of matched tars and chars from rapid coal devolatilization ST Perry, EM Hambly, TH Fletcher, MS Solum, RJ Pugmire Proceedings of the Combustion Institute 28 (2), 2313-2319, 2000 | 178 | 2000 |
Coal gasification K Liu, Z Cui, TH Fletcher Hydrogen and syngas production and purification technologies, 156-218, 2009 | 165 | 2009 |
Nitrogen release during coal combustion LL Baxter, RE Mitchell, TH Fletcher, RH Hurt Energy & Fuels 10 (1), 188-196, 1996 | 160 | 1996 |
The surface characteristics and reactivity of residual carbon in coal gasification slag X Zhao, C Zeng, Y Mao, W Li, Y Peng, T Wang, B Eiteneer, V Zamansky, ... Energy & fuels 24 (1), 91-94, 2010 | 156 | 2010 |
Simulated land-based turbine deposits generated in an accelerated deposition facility JW Jensen, SW Squire, JP Bons, TH Fletcher | 150 | 2005 |
Nitrogen transformations in coal during pyrolysis SR Kelemen, ML Gorbaty, PJ Kwiatek, TH Fletcher, M Watt, MS Solum, ... Energy & fuels 12 (1), 159-173, 1998 | 142 | 1998 |
Development of bioreactors for comparative study of natural attenuation, biostimulation, and bioaugmentation of petroleum-hydrocarbon contaminated soil MS Safdari, HR Kariminia, M Rahmati, F Fazlollahi, A Polasko, ... Journal of Hazardous Materials 342, 270-278, 2018 | 138 | 2018 |
Time-resolved particle temperature and mass loss measurements of a bituminous coal during devolatilization TH Fletcher Combustion and Flame 78 (2), 223-236, 1989 | 128 | 1989 |
Chemical and thermal sintering of supported metals with emphasis on cobalt catalysts during Fischer–Tropsch synthesis M Rahmati, MS Safdari, TH Fletcher, MD Argyle, CH Bartholomew Chemical reviews 120 (10), 4455-4533, 2020 | 124 | 2020 |
Effects of temperature and particle size on deposition in land based turbines JM Crosby, S Lewis, JP Bons, W Ai, TH Fletcher | 123 | 2008 |
Heating rate and temperature effects on pyrolysis products from live wildland fuels MS Safdari, E Amini, DR Weise, TH Fletcher Fuel 242, 295-304, 2019 | 122 | 2019 |
Decreases in the swelling and porosity of bituminous coals during devolatilization at high heating rates TK Gale, CH Bartholomew, TH Fletcher Combustion and Flame 100 (1-2), 94-100, 1995 | 118 | 1995 |