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Creator | Title | Date | Description |
501 |
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Krill, Wayne V.; Pam, Rick | Industrial Applications of the Pyrocore Burner | 1986 | |
502 |
|
Bloomer, John J. | Industrial Combustion Coordinated Rulemaking (ICCR) the Devlopment of Future Combustion Emission Regulations | 1997 | |
503 |
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Imanari, Takehito; Takei, Masaru; Nakamura, Tsuneaki; Osawa, Akira; Aoki, Syuichi | Industrial Furnace Design Intelligent Support System | 1998 | |
504 |
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Olszewski, Mitchell | Industrial Thermal Energy Storage What Are the Possibilities? | 1981 | |
505 |
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Brown, Blaine W.; Keller, Joseph G.; Soelberg, Nick; Kessinger, Glen F. | Industry-Identified Combustion Research Needs | 1996 | |
506 |
|
Wynnyckyj, J. R.; Marr, R.; Rhodes, E. | Inegrated Ash Monitoring System for Control of Fouling in Coal-Fired Boilers | 1988 | |
507 |
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Naruse, Ichiro; Yamamoto, Yasayuki; Itoh, Yoshifumi; Ohtake, Kazutomo | Influence of Coal Types on N20 Formation Characteristics in Low Temperature Pulverized Coal Combustion | 1994 | |
508 |
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Bryers, R. W. | Influence of Mineral Matter in Coal on Steam Generator Conversions | 1982 | |
509 |
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Knill, K. J.; Morgan, M. E. | The Influence of Mixing on NOx Reduction by Coal Fuel Staging | 1990 | |
510 |
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Mai, M. C. | Influence of Operating Conditions and Coal Characteristics on Ash Deposition in a Pilot-Scale Combustor | 1988 | |
511 |
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Bryers, Richard W.; Walchuk, O. R. | Influence of Pyrites on Furnace Slagging | 1983 | |
512 |
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Holve, Donald J.; Hoornstra, Jacob; Fletcher, Thomas H. | The Influence of Size Distribution Characteristics in Heterogeneous Combustion | 1985 | |
513 |
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Zieba, M.; Schuster, A.; Scheffknecht, G. | The influence of the gas composition on ammonia-to-Nox conversion during flameless combustion of low calorific value gases | 2009 | Flameless oxidation (FLOX®) technology has already demonstrated great potential in reducing thermal NOx while burning natural gas [1-3]. However, the tests with biogenous fuels have shown a limited ability to reduce NOx, where most of the NOx emissions are related to the fuel-bond nitrogen [4,5]. D... |
514 |
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Barsin, J. A.; Gonyeau, J. A.; Graika, P. K.; Bloomer, T. M. | Initial Operating Results of Coal-Fired Steam Generators Converted to 100% Refuse-Derived Fuel | 1987 | |
515 |
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Bjerklie, John W.; Zwick, Eugene B.; Panahi, Sherry K.; Watkins, Larry | Initial Test Results for a New Class of Regenerative Radiant Burners | 1992 | |
516 |
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Wilburg, Jerry D.; Young, Thomas M. | Innovations of Catalytic Combustion | 1991 | |
517 |
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Hong, J.; Baukal, C.; Bastianen, M.; Bellovich, J.; Leary, K. | Innovative steam-assisted flare technology | 2007 | A new steam-assisted flare has been developed which reduces or eliminates some of the potential limitations of conventional steam-assisted flares. The improved performance includes significantly reduced steam requirements (>30% reduction), elimination of two of the three steam supply lines, simplifi... |
518 |
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Evans, Scott | Insights from passive FTIR flare performance testing | 2011 | |
519 |
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| Institute of Gas Technology Applied Combustion Research Facilities | 1981 | |
520 |
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Michaud, Marcel; Van Langen, J. M.; Beer, J. M.; Reh, L.; Roberts, P. A. | The International Flame Research Foundation as an Example for International Industrial Joint Research | 1981 | |
521 |
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International Flame Research Foundation | International Flame Research Foundation Pamphlet - October 1980 | 1980 | |
522 |
|
Gogolek, P.; Caverly, Andrea; Pohl, J.; Schwartz, R.; Seebold, J. | International Flare Consortium Flare Emissions Literature Survey, Dec 2009 | 2012-09-05 | Paper from 2012 AFRC Meeting. |
523 |
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Pohl, John H.; Tait, Peter;Southwood, Scott | Investigation of Particulate Emission from a Malaysian Power Plant Firing Australian Coal | 2012-09-07 | |
524 |
|
Daviault, Stephane G.; Matida, Edgar A.; Ramadan, Omar B.; Hughes, Patrick M. | Investigation of the spray characteristics of a twin fluid atomizer using LSI and PDA | 2011-08-30 | The purpose of this paper is to fully characterize an industrial twin fluid swirl atomizer through the use of laser based measurement techniques. The atomizer used in this study was manufactured by Delavan and features three air swirl inlets onto the main fluid core located in a mixing chamber withi... |
525 |
|
Jansohn, Peter | Investigations_about_Co_firing_of_gasified_herbaceous_biomass_in_an_integrated_gasification_combined_cycle | | This paper focuses on combustion tests which were conducted to investigate the flame stability when product gas of biomass gasification is mixed with natural gas (NG) and subsequently burned in gas turbine (GT) combustors. Especially the product gas component H2 can alter the combustion properties o... |