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Creator | Title | Date | Description |
226 |
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Maloney, K. L. | Combustion Modifications for Coal-Fired Stoker Boilers | 1982 | |
227 |
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Cundy, V. A. Ph.D.; Maples, D. Ph.D.; Burch, T. M.S. | The Combustion of a Fuel Mixture Composed of Coal and Light Fuel Oil | 1983 | |
228 |
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Van de Kamp, W. L.; Haas, J.; Verlaan, A. L.; Dacombe, P. | The Combustion of Alternative Fuels, Coal and Liquid Fuels at the IFRF Research Station in 1997-1998 | 1998 | |
229 |
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Koyama, Isao; Okiura, Kunio; Akiyama, Iwao | Combustion of Coal-Water Mixture in Test Furnace | 1983 | |
230 |
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Tsang, Wing; Burgess, D. F. R.; Babushok, Valeri | The Combustion of Highly Fluorinated Organic Compounds | 1995 | |
231 |
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Mueller, Gary R.; Agrawal, Harshit; Caico, Chris; Olivacce, Ronald | Combustion of mixtures: A modified IFC approach | 2011 | While most studies on flares have been done with single hydrocarbon fuels or binary mixtures, the reality of most industrial flares is that they see different mixtures of many gases. Over the past 5 years the International Flare Consortium (IFC) has been conducting research on just this issue. In a ... |
232 |
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Wilde, James D. | Combustion Problems in the Steel Industry | 1986 | |
233 |
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Drake, Robert A. | Combustion Progress, Problems, Needs in the Glass Industry | 1986 | |
234 |
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Seebold, James G. | Combustion R&D Needs in the Petroleum Refining Industry | 1989 | |
235 |
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Misra, Mahendra | Combustion Research Needs for Glass Industry | 1996 | |
236 |
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Richter, Wolfgang ; Kobayashi, Hisashi | Combustion Space Modelling of Oxy-Fuel Fired Glass Melter | 1990 | |
237 |
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Jain, Ramesh | Combustion System Requirements For Advanced Gas-Fired Processes | 1986 | |
238 |
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Jain, Ramesh | Combustion System Requirements for Advanced Technologies | 1986 | |
239 |
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Onoda, Masami; Okimori, Mayumi; Takikawa, Iemitsu; Ikezaki, Eiji; Hiramoto, Yuji | Combustion Techniques in Remote CC-HDR Process | 1991 | |
240 |
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Pan, Y. S.; Bellas, G. T.; Joubert, J. I. | Combustion Tests with Alternative Fuels in Oil-Designed Boilers | 1981 | |
241 |
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Khinkis, Mark | Combustion With Oxygen Enriched Air | 1986 | |
242 |
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Dobos, Charles; Eustes, John | Combustion With Preheated Air Introduction | 1986 | |
243 |
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Beer, J. M.; Farmayan, W. F.; Monroe, L. S.; Srinivasachar, S.; Teare, J. D. | The Combustion, Heat Transfer, Pollutant Emission and Ash Deposition Characteristics of Concentrated Coal Water Slurries | 1983 | |
244 |
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Turan, A.; Chatwani, A. U.; Loftus, P. J.; Stickler, D. B. | Combustor Modelling - A Maturing State of the Art | 1988 | |
245 |
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| Commercial Operating Experience with the Rapid Mix Ultra Low Emission Burner | 1998 | |
246 |
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Barsin, J. A. | Commercialization of Coal-Water Slurries | 1982 | |
247 |
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Barsin, J. A. | Commercialization of Coal-Water Slurries - II | 1982 | |
248 |
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Fiveland, W. A.; Morita, Shigeki; Azuhata, Shigeru | Como a Numerical Model for Predicting Furnace Performance in Axisymmetric Geometries | 1983 | |
249 |
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Martin, Matthew | Comparison of empirically based calculation methods for pipe flares to computational fluid dynamics | 2007 | As available computational resources increase and the use of computational fluid dynamics (CFD) becomes more widely accepted wider classes of industrial scale combustion systems are being simulated and optimized using these resources. A largebody of empirically based work has already been assembled ... |
250 |
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Hradisky, Michal | Comparison of Local and Global Combustion Efficiencies for the TCEQ 2010 Flare Study Air-Assisted Flare using High Performance Computing | 2013-09-25 | Paper from the AFRC 2013 conference titled Comparison of Local and Global Combustion Efficiencies for the TCEQ 2010 Flare Study Air-Assisted Flare using High Performance Computing by Michal Hradisky. |