1 |
Lee H and Choi S. (2015). "An observation of combustion behavior of a single coal particle entrained into hot gas flow". Combustion and Flame, 162, 2610.
DOI
|
2 |
Hattori H. (1956). "Flame propagation in pulverised coal-air mixtures". Sixth Symposium (International) on Combustion, The Combustion Institute, New York, 590.
|
3 |
Ghosh B., Basu D. and Roy N.K. (1956). "Studies of pulverised coal flames". Sixth Symposium (International) on Combustion, Reinhold, New York, 595.
|
4 |
Burgoyne J.H and Long V.D. (1958). "Some measurements of the burning velocity of coal-in-air suspensions". Journal of The Institute of Fuel, Paper No. 28.
|
5 |
Marshall W.F., Palmer H.B. and Seery D.H. (1964). "Particle Size Effects and Flame Propagation Rate Control in Laminar Dust Flames". J. Inst. Fuel, 37, 342.
|
6 |
Howard J.B. and Essenhigh R.H. (1967). "Mechanism of Solid-Particle Combustion with Simulation Gas-Phase Volatiles Combustion". Eleventh Symposium (International) on Combustion, The Combustion Institute, Pittsburgh, 399.
|
7 |
Strehlow R.A., Savage L.D. and Sorensen S.C. (1974). "Coal dust combustion and supression". Tenth AIAA/SAE Propulsion Conference, San Diego.
|
8 |
Smoot L.D., Horton M.D. and Goodson F.P. (1977a). "Characteristics of flat, laminar coal-dust flames". Combustion and Flame, 28, 187.
DOI
|
9 |
Smoot L.D., Horton M.D. and Wiliams G.A. (1977b). "Propagation of laminar pulverised coal-air flames". Sixteenth Symposium (International) on Combustion, The Combustion Institute, Pittsburgh, 1455.
|
10 |
Milne T.A. and Beachey J.E. (1977). "The Microstructure of pulverised coal-air flames. I. Stabilisation on small burners and direct sampling technique". Combustion Science and Technology, 16, 123.
DOI
|
11 |
Slezak E.S., Fitch D.J., Krier H. and Buckius R.O. (1983). "Coal dust flame propagation in a laboratory flammability tube". Combustion and Flame, 54, 103.
DOI
|
12 |
Bradley D., Dixon-Lewis G. and Habik S.E. (1989). "Lean flammability limits and laminar burning velocities of -Air-Graphite mixtures and fine coal dusts". Combustion and Flame, 77, 41.
DOI
|
13 |
Bradley D., Lawes D., Park H.Y., and Usta N. (2006). "Modeling of laminar pulverized coal flames with speciated devolatilization and comparisons with experiments ". Combustion and Flame, 144, 190.
DOI
|
14 |
Essenhigh R.H. and Csaba J. (1963). "The Thermal Radiation Theory for Plane Flame Propagation in Coal Dust Flames". Ninth Symposium (International) on Combustion, The Combustion Institute, Pittsburgh, 111.
|
15 |
Smoot L.D., Hecker W.C. and Wiliiams G.A. (1976). "Predicting propagating methane-air flames". Combustion and Flame, 26, 323.
DOI
|
16 |
Bradley D., Habik S.E. and El-Sherif S. (1991). "A Generilisation of Laminar Burning Velocities and Volumetric Heat Release Rates". Combustion and Flame, 87, 336.
DOI
|
17 |
Bradley D., Chen Z., El-Sherif S., Habik S.E., John G. and Dixon-Lewis G. (1994). "Structure of Laminar Premixed Carbon-Methane-Air Flames and Ultra-Fine Coal Combustion". Combustion and Flame, 96, 80.
DOI
|
18 |
Bradley D., Lawes D., Scott M.J. and Usta N. (2001). "The Structure of coal-air- Laminar flames in a low-pressure burner: CARS measurements and modeling studies". Combustion and Flame, 124, 82.
DOI
|
19 |
Dixon-Lewis G. (1984). "Computer Modelling of Combustion Reactions in Flowing Systems with Transport". Chapter 2 in Combustion Chemistry edited by Gardiner W.C., Springer-Verlag, New York.
|
20 |
Merrick D. (1983). "Mathematical Models of the Thermal Decomposition of Coal 1. The Evolution of Volatile Matter". Fuel, 62, 535.
|
21 |
Therssen E., Gourichon L. and Delfosse L. "Devolatilization of coal particles in a flat flame-experimental and modeling study". Combustion and Flame, 103, 115.
|