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Creator | Title | Date | Description |
426 |
|
Ayers, W. J. Jr.; Johnson, E. K.; Mei, J. S.; Rice, R. L.; Shang, J. Y. | The Fluidized-Bed Combustion of Char | 1982 | |
427 |
|
Tada, Toshiya; Yaso, Tadashi; Suyari, Mamoru; Kawabata, Hiroaki; Suzuki, Tomio | Fluidized-bed Pyrolysis and Swirl-Flow Melting System for Municipal Solid Waste | 1998 | |
428 |
|
| Forced Draft Burners with Two Stage Fuel System | 1979 | |
429 |
|
Chiang, Pen-Chi; You, Jiann-Hwa; Chang, Kun-Ten; Chang, Shenq-Chyi | Formation and Control of PAHs and Mutagenicity of Soot Particulates from Incineration of Polystyrene | 1992 | |
430 |
|
| Fossil Fuel Combustion in an O2 CO2 Medium Preliminary Data From Highvale Coal | 1997 | |
431 |
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Skinner, John H.; Ondich, Gregory G. | Fostering Innovative Technology Development for Superfund Sites | 1987 | |
432 |
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Fortino, R. T.; Duqum, J. N.; Petrill, E. M. | Freeboard Combustion and NOx Modeling of a 6x6 Fluidized Bed Combustor | 1985 | |
433 |
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Pohl, John; Gogolek, Peter E.G.; Seebold, James G.; Schwartz, Robert | Fuel composition effect on flare flame inefficiency | 2004 | The effects of fuel composition on the performance of flare flames have long been known. Possibly the first performance indicator was the tendency of a fuel to smoke. Various fuel characteristics such as average molecular weight and carbon-to-hydrogen ratio were advanced to guide the design of early... |
434 |
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Bodelin, P.; Delabroy, O.; Oguro, T.; Drasek, W. Von; Joshi, M. | Fuel Oil Burner Development for High Temperature Melting Applications | 1998 | |
435 |
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Amin, E. M.; Pourkashanian, Mohamed; Richardson, A. P.; Williams, Alan; Yap, L. T.; Yetter, R. A. | Fuel Preheat as NOx Abatement Strategy for Oxygen Enriched Turbulent Diffusion Flames | 1994 | |
436 |
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Waibel, R.; Nickeson, D.; Radak, L.; Boyd, W. | Fuel Staging Burners for NOx Control | 1986 | |
437 |
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Kelly, J. T.; Pam, R. L.; Suttman, S. T. | Fuel Staging for Pulverized Coal Furnace NOx Control | 1982 | |
438 |
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Frederiksen, Richard D.; Dahm, Werner J.A.; Tryggvason, Gretar; Breen, Bernard P.; Glickert, Roger; Urich, Joseph A.; Pratapas, John M.; Serauskas, Robert V. | Fuel-Lean Gas Reburn (FLGR) Technology for Achieving NOx Emissions Compliance Application to a Tangentially-Fired Boiler | 1998 | |
439 |
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Eynon, Robert T. | The Fueling of US Industry Into the 21st Century | 1996 | |
440 |
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Sarv, Hamid; LaRue, Albert D. | Full-Size Characterization of Low-NOx Burner Coal Nozzle Mixing Devices in a 100 MBtu/hr Research Facility | 1995 | |
441 |
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Wendt, J. O. L.; Linak, William P.; McSorley, Joseph A. | Fundamental Mechanisms Governing Transients From the Batch Incineration of Liquid Wastes in Rotary Kilns | 1987 | |
442 |
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Akiyama, T.; Ichizen, K.; Yoshimura, Y.; Katsuki, M; Mizutani, Y. | Fundamental Study on Non-Oxidizing Direct Heating Technology | 1991 | |
443 |
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Lighty, JoAnn S.; Silcox, Geoff D.; Britt, Robert ; Owens, Warren D.; Pershing, David W.; Cundy, Vic A. | Fundamentals of Hazardous Solid Waste Incineration in a Rotary Kiln Environment | 1987 | |
444 |
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Fiveland, W. A.; Wessel, R. A. | Furmo A Numerical Model for Predicting Performance of Three-Dimensional Pulverized-Fuel Fired Furnaces | 1985 | |
445 |
|
Varga, Gideon M. Jr. | Future Industrial Combustion a Vision of Improved Productivity and Product Quality | 1997 | |
446 |
|
Varga, Gideon M. | Future Industrial Combustion: A Vision and Technology Roadmap for the Combustion Community | 1998 | |
447 |
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| Future Industrial Combustion: A Vision for the Combustion Community | 1998 | |
448 |
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Varga, Gideon M. Jr. | Future Industrial Combustion: A Vision of Improved Productivity and Product Quality | 1997 | |
449 |
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Waterland, L. R.; Mason, H. B.; Gemmer, R. V.; Drennan, Scott A. | Gas Cofiring for Performance Improvement and Emissions Reduction in Stoker Boilers | 1999 | |
450 |
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| Gas Reburning and Advanced Gas Reburning for Control of NOx Emissions | 1997 | |