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Combustion Science and Technology Volume 24, 1980 - Issue 1-2
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Original Articles

Combustion and Agglomeration of Coal-Oil Mixtures in Furnace Environments

K. MIYASAKA Department of Mechanical and Nuclear Engineering, Northwestern University, Evanston, Illinois, 60201
&
C. K. LAW Department of Mechanical and Nuclear Engineering, Northwestern University, Evanston, Illinois, 60201
Pages 71-82 | Received 17 Jan 1980, Accepted 08 Apr 1980, Published online: 27 Apr 2007

Citations (41)

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C. K. LAW. (1990) Considerations of Droplet Processes in Liquid Hazardous Waste Incineration. Combustion Science and Technology 74:1-6, pages 1-15.
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S. Y. CHO, F. TAKAHASHI & F. L DRYER. (1989) Some Theoretical Considerations on the Combustion and Disruption of Free Slurry Droplets. Combustion Science and Technology 67:1-3, pages 37-57.
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S.c. Wong & S. R. Turns. (1989) Disruptive Burning of Aluminum/arbon Slurry Droplets. Combustion Science and Technology 66:1-3, pages 75-92.
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F. TAKAHASHI, I. J. HEILWEIL & F. L. DRYER. (1989) Disruptive Burning Mechanism of Free Slurry Droplets. Combustion Science and Technology 65:1-3, pages 151-165.
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R.J. Downie & P.C. Bandopadhayay. (1988) AUSTRALIAN BROWN COAL/OIL MIXTURES AS A FUEL FOR DIESEL ENGINES; ENGINE PERFORMANCE AND ECONOMIC VIABILITY. Fuel Science and Technology International 6:4, pages 415-447.
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S. C. WONG & S. R. TURNS. (1987) Ignition of Aluminum Slurry Droplets. Combustion Science and Technology 52:4-6, pages 221-242.
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Articles from other publishers (35)

D.V. Feoktistov, D.O. Glushkov, G.V. Kuznetsov, D.S. Nikitin, E.G. Orlova & K.K. Paushkina. (2022) Ignition and combustion characteristics of coal-water-oil slurry placed on modified metal surface at mixed heat transfer. Fuel Processing Technology 233, pages 107291.
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D.V. Feoktistov, D.O. Glushkov, G.V. Kuznetsov, E.G. Orlova & K.K. Paushkina. (2022) Ignition and combustion enhancement of composite fuel in conditions of droplets dispersion during conductive heating on steel surfaces with different roughness parameters. Fuel 314, pages 122745.
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Sepehr Mosadegh, Ahmadreza Ghaffarkhah, Colin van der Kuur, Mohammad Arjmand & Sina Kheirkhah. (2022) Graphene oxide doped ethanol droplet combustion: Ignition delay and contribution of atomization to burning rate. Combustion and Flame 238, pages 111748.
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D.O. Glushkov, D.V. Feoktistov, G.V. Kuznetsov, K.A. Batishcheva, T. Kudelova & K.K. Paushkina. (2020) Conditions and characteristics of droplets breakup for industrial waste-derived fuel suspensions ignited in high-temperature air. Fuel 265, pages 116915.
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Mohsen Ghamari & Albert Ratner. (2017) Combustion characteristics of colloidal droplets of jet fuel and carbon based nanoparticles. Fuel 188, pages 182-189.
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K. Yu. Vershinina, D. O. Glushkov, G. V. Kuznetsov & P. A. Strizhak. (2016) Differences in the ignition characteristics of coal–water slurries and composite liquid fuel. Solid Fuel Chemistry 50:2, pages 88-101.
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Jian Xu, Li Qiao, Jian Gao & Jun Chen. (2014) Droplet breakup of micro- and nano-dispersed carbon-in-water colloidal suspensions under intense radiation. International Journal of Heat and Mass Transfer 78, pages 267-276.
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Jian Xu & Li Qiao. (2013) Radiation-Induced Droplet Breakup of Nano-Dispersed Coal-in-Water Colloidal Fuels. Radiation-Induced Droplet Breakup of Nano-Dispersed Coal-in-Water Colloidal Fuels.
S. S. Sadhal, P. S. Ayyaswamy & J. N. ChungS. S. Sadhal, P. S. Ayyaswamy & J. N. Chung. 1997. Transport Phenomena with Drops and Bubbles. Transport Phenomena with Drops and Bubbles 443 485 .
A. I. Kuz'min & S. S. Kharchenko. (1995) Mathematical simulation of the combustion of slurry fuels. Combustion, Explosion, and Shock Waves 31:6, pages 655-660.
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S. R. Shankapal & V. Sriramulu. (1995) Preliminary investigations of combustion of pulverized coconut shell-based fuel slurries in an oil-fired foundry furnace. International Journal of Energy Research 19:8, pages 687-691.
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Portonovo S. Ayyaswamy. 1995. 1 104 .
Ajay Atal & Yiannis A. Levendis. (1993) Observations on the combustion behavior of coal water fuels and coal water fuels impregnated with calcium magnesium acetate. Combustion and Flame 93:1-2, pages 61-89.
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C.K. LAW & H.K. LAW. 1993. Modern Developments in Energy, Combustion and Spectroscopy. Modern Developments in Energy, Combustion and Spectroscopy 29 48 .
Shwin-Chung Wong & Ar-Cheng Lin. (1992) Microexplosion mechanisms of aluminum/carbon slurry droplets. Combustion and Flame 89:1, pages 64-76.
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P. Roy Choudhury. (1992) Slurry fuels. Progress in Energy and Combustion Science 18:5, pages 409-427.
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A. Lee & C.K. Law. (1991) Gasification and shell characteristics in slurry droplet burning. Combustion and Flame 85:1-2, pages 77-93.
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Shwin-Chung Wong, Ar-Cheng Lin & Hao-Yuan Chi. (1991) Effects of surfactant on the evaporation, shell formation and disruptive behavior of slurry droplets. Symposium (International) on Combustion 23:1, pages 1391-1397.
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Derek Dunn-Rankin & Larry Baxter. (1991) The role of dispersants in CWS agglomeration during combustion. Fuel 70:1, pages 84-89.
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G. J. Green, F. Takahashi, D. E. Walsh & F. L. Dryer. (1989) Aerodynamic device for generating mono-disperse fuel droplets. Review of Scientific Instruments 60:4, pages 646-652.
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Daniel J. Maloney & James F. Spann. (1989) Evaporation, Agglomeration, and explosive boiling characteristics of coal-water fuels under intense heating conditions. Symposium (International) on Combustion 22:1, pages 1999-2008.
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Osamu Kawaguchi & Takashi Noto. (1989) Combustion of coal char agglomerates in a combustion gas environment. Symposium (International) on Combustion 22:1, pages 97-103.
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L. C. Clausen, T. X. Li & C. K. Law. (1988) Effects of additives on the microexplosion of carbon slurry droplets. Journal of Propulsion and Power 4:3, pages 217-221.
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F. Takahashi, F.L. Dryer & F.A. Williams. (1988) Combustion behavior of free boron slurry droplets. Symposium (International) on Combustion 21:1, pages 1983-1991.
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G. Papachristodoulou & O. Trass. (2009) Coal slurry fuel technology. The Canadian Journal of Chemical Engineering 65:2, pages 177-201.
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G.E. Liu & C.K. Law. (1986) Combustion of coal-water slurry droplets. Fuel 65:2, pages 171-176.
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Masahiko Mizomoto, Ideo Masuda & Shigeru Ikai. (1986) Combustion of a coal-oil mixture droplet on a hot surface. Combustion and Flame 63:1-2, pages 289-301.
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Ryszard Petela. (1985) Approximate flame temperature distribution during combustion of oil and a coal-oil mixture. Fuel 64:5, pages 697-703.
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Shi-Chune Yao & Lian Liu. (1983) Behavior of suspended coal-water slurry droplets in a combustion environment. Combustion and Flame 51, pages 335-345.
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T. Sakai & M. Saito. (1983) Single-droplet combustion of coal slurry fuels. Combustion and Flame 51, pages 141-154.
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G. A. SzekelyJr.Jr. & G. M. Faeth. (1982) Combustion properties of carbon slurry drops. AIAA Journal 20:3, pages 422-429.
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G.A. SzekelyJr.Jr. & G.M. Faeth. (1982) Reaction of carbon black slurry agglomerates in combustion gases. Symposium (International) on Combustion 19:1, pages 1077-1085.
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LIAN LIU & SHI-CHUNE YAO. 1982. Energy, Resources and Environment. Energy, Resources and Environment 154 161 .
C.K. Law. (1982) Recent advances in droplet vaporization and combustion. Progress in Energy and Combustion Science 8:3, pages 171-201.
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S.R. Gollahalli, M.L. Rasmussen & S.J. Moussavi. (1981) Combustion of drops and sprays of No. 2 diesel oil and its emulsions with water. Symposium (International) on Combustion 18:1, pages 349-360.
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