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Creator | Title | Date | Description |
351 |
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Benson, Charles; Wilson, Robert; Loftus, Peter; Itse, Daniel; Morgan, Mark | Emissions Control Technology for Coal Fueled Reciprocating Engines | 1992 | |
352 |
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Demayo, T. N.; Samuelsen, G. S. | Emissions of Hazardous Air Pollutants and Ozone Precursors from a Natural Gas-Fired Burner | 1998 | |
353 |
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Seebold, James G.; Kee, Robert J.; Lutze, Andrew J.; Pitz, William J.; Westbrook, Charles K.; Senkan, Selim M. | Emissions of Volatile Organic Compounds from Stationary Combustion Sources Numerical Modeling Capabilities | 1992 | |
354 |
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Thekdi, Arvind C. | Energy conservation and pollution control (Abstract) | | The paper discusses the effects of pollution control, particularly NO control, methods, on heat demands for the process. The effects of combustion modification methods, such as stoichiometric combustion, flue gas recirculation and steam or water injection are studied in a laboratory furnace and the ... |
355 |
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Thekdi, Arvind C. | Energy conservation and pollution control (abstract) | | Abstract |
356 |
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Lisauskas, Robert A.; Breault, Ronald W. | Energy Recovery From the Combustion of Wastes in the Multisolid Fluidized Bed Combustor | 1987 | |
357 |
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Seery, D. J.; Sangiovanni, J. J. | Engineering Development of a Coal Fired High Performance Power Generating System | 1998 | |
358 |
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Haumann, J.; Knopfli, A.; Sattelmayer, T. | Enhanced NOx Reduction in Staged Combustion: Technical Application of Premix Technology in Boilers | 1994 | |
359 |
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Kretzschmar, Simon | Enviromix_split_phase_applying_flameless_combustion_principles_to_pyrolysis_furnaces | 2011 | As the drive towards reduced NOx emissions accelerates, the need to promote synergy between all furnace components becomes paramount. One of the most exciting methods of reducing these emissions is through the application of the principles of flameless combustion. Through high rates of flue gas reci... |
360 |
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Smith, Scot K.; Modi, Jay B.; McDonald, J. M.; Little, C.; Smith, Joseph D.; Berg, L. M. | Environmental testing of an advanced flare tip for a low-profile flare burning ethylene | 2007 | |
361 |
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Bussman, W. R.; Baukal, C. E. | Environmentally-Friendly Flaring | 2012-09-05 | |
362 |
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Dickens, Brian | EPA Flare Activity Overview | 2012-09-05 | |
363 |
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Holloway, Robert | EPA's Proposed Hazardous Waste Combustion Regulations | 1987 | |
364 |
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Farthing, G. A.; Daley, R. D.; Vecci, S. J.; Manfred, R. K. | EPRI Coal-Water Mixture Evaluation Program | 1983 | |
365 |
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Baukal, C. E.; Slavejkov, Alex; Valianatos, P. J. | Equilibrium and Experimental NOx Comparisons | 1992 | |
366 |
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Torbov, T. Steve | Equipment Impact From Low NOx Control Technologies Application | 1999 | |
367 |
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Gogolek, Peter E.G. | Estimating maximum steam assist rate for arbitrary flare gas mixtures | 2011 | |
368 |
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Barrett, R. E.; Murin, J. M.; Mack, G. A.; Dimmer, J. P. | Evaluating Slagging and Fouling Parameters | 1983 | |
369 |
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Fry, Andrew; Van Otten, Brydger; Adams, Brad | Evaluating the Impacts of an Oxy-‐combustion Retrofit of Coal-‐fired Utility Boilers using Advanced Modeling Techniques | 2012-09-06 | |
370 |
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Thornock, D. E.; McGowan, J. G.; Phyfe, N. M.; Eddings, E. G.; Heap, M. P.; Smith, Philip J. | Evaluation of Carbon Conversion/NOx Emissions from Full Scale Boilers Using CFD-Based Combustion Simulations | 1994 | |
371 |
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Drennan, Scott A. | Evaluation of Gas Cofiring Burner Placement Over a Coal Spreader Stoker Boiler | 1995 | |
372 |
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Itse, Daniel C.; Marshall, John J.; Afonso, Rui F.; Molino, Nino M.; Hurley, John F.; Lindemann, Scott; Dale, John | Evaluation of Low-NOx, High Efficiency Oil and Gas Burners for Retrofit to Utility Boilers | 1989 | |
373 |
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Sarv, Hamid; Rodgers, Larry W. | Evaluation of NOx Control by Cyanuric Acid Injection in an Industrial-Scale Boiler | 1989 | |
374 |
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Smith, Joseph D.; Suo-Anttila, Ahti; Smith, Scot K.; Modi, Jay B. | Evaluation of the air-demand, flame height, and radiation from low-profile flare tips using ISIS-3D | 2007 | Low-profile flare fields pose significant design challenges including elongated flames, adequate air supply to burner tips located on inner rows and high radiation flux from the flame to the surrounding wind fence. Recent work completed by engineers at Alion Science and Technology for Zeeco, Inc. ha... |
375 |
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Read, P. J.; Whaley, H.; Lee, G. K. | Evolution of Canada's Coal-Liquid Mixture Program | 1982 | |