American Flame Research Committee
 
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301 - 400 of 1,104
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CreatorTitleDateDescription
301 Facchiano, AnthonyDesign & Operating Objectives of Low NOx Burners When Used in Industrial Package Boiler Applications1992
302 Urbas, J.; Boyle, John M.Design Optimization and Economic Analysis of SNCR/SCR Hybrid on a Utility Boiler in the Ozone Transport Region1998
303 Latham, C. E.; LaRue, Albert D.; LaRose, J. A.Designing Air Staging Systems with Mathematical Modeling1994
304 De Michele, G; Pasini, S.; Ligasacchi, S.; Tognotti, LeoDesigning Low NOx Combustion Systems1996
305 Hedman, P. O.; Highsmith, J. R.; Soelberg, N. R.; Smoot, L. D.Detailed Local Measurements in the BYU Entrained Coal Gasifier1982
306 Verma, I.Detailed Soot Modeling in Turbulent Kerosene/air Diffusion Flame: Sensitivity Analysis of Models Using Moment of Methods2018-09-18Paper from the AFRC 2018 conference titled Detailed Soot Modeling in Turbulent Kerosene/air Diffusion Flame: Sensitivity Analysis of Models Using Moment of Methods
307 Stier, Randy S.Detecting Flame Instability and/or Loss of Flame in Fired Heaters Using Advanced Pressure Diagnostics2013-09-25Paper from the AFRC 2013 conference titled Detecting Flame Instability and/or Loss of Flame in Fired Heaters Using Advanced Pressure Diagnostics by Randy Stier
308 Kaufman, K. C.; Fiveland, W. A.; Fornaciari, Neal; Goix, Philippe; Walsh, Peter M.Developing a Benchmark for Natural Gas Combustion Models1996
309 Regan, John W.; von Hein, Robert J.; Peletz, Lawrence J. Jr.; Wesnor, James D.Developing ABBs LEBS Technologies1996
310 Suzukawa, Yutaka; Mori, Isao; Sugiyama, Syunichi; Hasegawa, ToshiakiDevelopment and Application of Direct Fired Regenerative Burner Heating System1998
311 Taylor, CurtisDevelopment and Commercialization of an Advanced, Low-Emissions, Multi-Fuel Oxygen Burner1994
312 Crimmins, J.; Khinkis, M.; Kunc, V.; Korenberg, Dr. J.; Reider, C.Development and Commercialization of an Efficient Cyclonic Incinerator for Wastes1987
313 Jamaluddin, J.Development and Demonstration of a Fuel-Flexible Burner for Fired Heaters2014-09-10Paper from the AFRC 2014 conference titled Development and Demonstration of a Fuel-Flexible Burner for Fired Heaters by J. Jamaluddin.
314 Sullivan, John D.; Smith, Scott H.; Webb, Andrew W.Development and Demonstration of Large Scale Industrial Low Emission Radiation Stabilized Burners1998
315 Benson, Charles; Thijssen, Johannes; Loftus, Peter; Moreland, Don; Moore, Ed; Irwin, Bruce; Gemmer, R. V.; Lingras, Anil; Swistock, HarryDevelopment and Demonstration of the Low NOx StAR Burner for High Temperature Industrial Furnaces1994
316 Sullivan, John D.; Webb, Andrew W.Development and Demonstration of the Radiation Stabilized Burner for Boilers and Process Heaters1996
317 Khinkis, M. J.; Kunc, V.; Romanovich, P.Development and Operation of an Efficient Cyclonic Incineration Demonstration System for Industrial Wastewater1987
318 Development and Performance Evaluation of the New Low NOx CGRI Burner for Use with High Air Preheat1997
319 Beer, J. M.; Barta, L. E.; Lewis, P. F.; Wood, V.; Akinyemi, O.; Haynes, J.; Jimenez, J.; Manurung, R.; Rodgers, L. W.Development and Testing of the MIT-RSFC Low-NOx Coal Combustor for the B &W LEBS Program1994
320 Jamaluddin, Jamal; Benson, Charles; Pellizzari, Roberto; Marty, Seth; Young, Thomas; Isaacs, Rex; Renk, JosephDevelopment of a Fuel-Flexible Burner for Process Plants2012-09-06
321 Bortz, Steven J.; Yang, Shyh-ChingDevelopment of a Generalized Burner Design Procedure1990
322 Lifshits, VladimirDevelopment of a High Performance Versatile Low NOx Burner1996
323 Matt WhelanDevelopment of a Low NOx Burner for Combined Cycle Gas Turbine/ Once-Through Steam Generator System2016-09-13Conference paper
324 Whelan, M.Development of a Low NOx Burner for Combined Cycle Gas Turbine/ Once-Through Steam Generator System2016-09-13Paper from the AFRC 2016 conference titled Development of a Low NOx Burner for Combined Cycle Gas Turbine/ Once-Through Steam Generator System
325 Krill, W. V.; Merrick, E. B.; Kesselring, J. P.; Friedman, M. A.Development of a Low NOx Burner for Gas Fired Firetube Boilers1981
326 Rahbar, ShahrzadDevelopment of a Low NOx Burner for Use with Preheated Combustion Air1994
327 Stretton, A. J.The Development of a Low NOx High Intensity Burner1994
328 Loftus, Peter; Benson, Charles; Wiener, William; Cole, Robert; Porter, James; Manthei, Dennis; Dolan, WilliamDevelopment of a Low-NOx Burner for Direct-Fired Absorption Chillers1994
329 Lewis, Elliot-Sullivan; Hack, Richard; McDonell, VincentDevelopment of a modular supplemental burner for optimization of distributed generation/combined heat and power system efficiency2011Increased interest in distributed power generation has lead to increased interest in combined heating cooling and power (CCHP). One significant issue in implementing a CCHP is that electrical loads and heating or cooling loads are rarely synchronized. Duct burners are frequently used to provide addi...
330 de Sousa, T. LlorenteThe Development of a Relationship Between Percentage of Oxygen Enrichment of Primary Air, Flue Gas Tempertaure And Fuel (Sasol Gas) Savings1985
331 Kimura, K.; Ichimiya, M.; Tanaka, S.Development of a Slit Burner1985
332 Yoshigae, Takeo; Suzuki, TomioDevelopment of a Sludge Slagging Combustor1990
333 Shareh, F.B.Development of a Sub-Surface Burner Technology for In-Situ Heating2015-09-11Paper from the AFRC 2015 conference titled Development of a Sub-Surface Burner Technology for In-Situ Heating
334 Kimura, Kozo; Yoshikawa, Fumiaki; Nakamichi, Satoru; Shiraishi, Norihisa; Ogino, YozoDevelopment of a Technique for Removal of Organic Sulfur Compounds in Coke Oven Gas1991
335 Kaneda, H.; Yamazaki, K.; Kiyama, K.; Karki, K. C.; Patankar, S. V.Development of a Three Dimensional Coal Combustion Model1991
336 Yegian, D. T.; Cheng, R. K.Development of a Vane Swirler for Use in a Low NOx Weak Swirl Burner1996
337 Marion, J. L.; Towle, D. P.; Kunkel, R. C.; Laflesh, R. C.Development of ABB C-E's Tangential Firing System 2000 (TFS 2000 System)1993
338 Espinosa, Gil; Cruz, Nick P.; Moorehouse, Larry; Kwan, Yul; Grant, Martin P.; Rowe, Robert G.Development of an Advanced Low NOx Landfill Gas Burner for Utility Boiler Application1995
339 Sivy, J. L.; Rodgers, L. W.; Kaufman, K. C.; Koslosky, J. V.Development of an Advanced Low-NOx Burner in Support of B&W's Advanced Coal-Fired Low-Emission Boiler System1995
340 Knill, K. J.; Collin, R.Development of an International Flame Research Foundation Working Group on Waste Incineration1987
341 Lennox, N. D.; Smith, A. C.The Development of an Oxygen-Pulverised Fuel Burner for Energy Savings and Production Increases1988
342 Beer, J. M.; Jansohn, P.; Sun, N.; Shihadeh, A.; Toqan, M. A.; Borio, R. W.Development of an Ultra Low NOx Burner for Natural Gas Oil and Pulverized Coal1992
343 Lifshits, Vladimir; Drennan, Scott A.Development of an Ultra Low NOx Burner with Widened Stability Limits1998
344 Anderson, K.Development of an Ultra-Low NOx Gaseous Fuel Burner for OTSG Applications2016-09-13Paper from the AFRC 2016 conference titled Development of an Ultra-Low NOx Gaseous Fuel Burner for OTSG Applications
345 Kevin AndersonDevelopment of an Ultra-Low NOx Gaseous Fuel Burner for OTSG Applications2016-09-13Conference paper
346 Xiong, Tian-yu; Khinkis, Mark J.; Coppin, William P.The Development of an Ultra-Low-Emission Gas-Fired Cyclonic Combustor1991
347 Development of CCME National Emission Guidelines for Commercial/ Industrial Broilers, Heaters and Cement Kilns1997
348 Anzawa, Norio; Hisasue, Osamu; Adachi, KojiDevelopment of Combustion Technology with Foam of Liquid Fuel and Air1994
349 Futagami, Nobuhiro; Kubo, Hideho; Nakamura, Masaru; Tanaka, Kunihiro; Takehara, Tsuguo; Oiyama, DaisukeDevelopment of Curtain Wall Flame Burner1984
350 Nakagawa, T.; Karube, K.; Hara, K.; Ozaki, J.Development of Efficient Combustion Technology Applying High Cycle Regenerative Heat Exchange System1998
351 Development of EFSOP and the Application of Post Combustion in Electric Arc Furnaces1997
352 Hsu, Heng-Wen; Chu, Hsin; Chen, Ming-DerDevelopment of Flue Gas Desulfurization Technology in Taiwan1991
353 Development of Low NOx Burners and Low NOx Air Register1979
354 Development of Low NOx High Performance Industrial Burner1992
355 Klein, ManfredDevelopment of National Emission Guidelines for Stationary Combustion Turbines1994
356 Sato, Kuniaki; Muto, Shinichiro; Futagami, Nobuhiro; Yanagishima, Fumiya; Shimoyama, YuziDevelopment of New Type Gas Burner for Radiant Tube1984
357 Murakami, Hideki; Fujioka, Masato; Hase, Masataka; Saito, Toshiaki; Hayashi, JunichiDevelopment of Oxygen COG Combustion System for Steel Reheating1996
358 Kaminaka, Motofumi; Okada, Seiji; Fujiwara, MichitakeDevelopment of Oxygen Jet Burner in Electric Arc Furnace1998
359 Nakagawa, T.; Obashi, M.; Nuta, K.; Naito, T.; Abe, Y.; Ohmori, N.Development of Radiant Tube Heating System for High-Temperature and for High-Combustion Load1994
360 Suzuki, Yutaka; Kaminaka, Motofumi; Takashima, HiroyukiDevelopment of Reducing and Direct Fire Heating Technology1991
361 Hagiwara, A.; Higashi, Y.; Suzuki, T.Development of Reformer Burner Design Criteria for Pressurized Fuel Cell Power Plant Application1991
362 Tada, T.; Akiyama, T.; Kawamoto, M.; Kikukawa, H.Development of Regenerative Burner System for Radiant Tubes1991
363 Fukuda, K.; Shima, H.; Hoshijima, Y.; Yamamoto, H.; Onuki, K.Development of RH-Multi-Function-Burner1995
364 Kokura, Yoshihiro; Ichiraku, Yuichi; Matsumura, Masahiko; Yoshida, ToshioDevelopment of Supplementary Firing Burner for Gas Turbine Repowering System1994
365 Suzuki, Yutaka; Kaminaka, Motofumi; Kaburagi, Katuhiko; Yabuki, KunihiroDevelopment of Swirl Burner Series for Steel Making Processes1994
366 Madden, Debi A.; Farthing, George A.; Gohara, W. F.Development of the Advanced LIDS System as an Integral Part of the Babcock & Wilcox Low Emission Boiler System1994
367 Development of the MIT-RSFC Low NOx Burner for Pulverized Coal Combustion1994
368 Development Program and Operating Experience of Pulverized Coal Staged Combustion Burners for Steam Boilers1979
369 Plodinec, M. J.; Cook, R. L.; Arunkumar, R.; Green, R. A.; Gresham, L. L.; Jang, P. R.; Lindner, J S.; Luthe, J. C.; McCarthy, M. J.; Miles, D. M.; Monts, D. L.; Norton, O. P.; Okhuysen, W. P.; Singh, J. P.; Yueh, F. Y.; Zikratov, G. A.Diagnostic Field Measurements in High Temperature Industrial Scale Process Equipment1998
370 Scotto, Mark V.Diesel Burner Development for 500-Watt Portable Thermophotovoltaic Generator1999
371 Ryan, H. M.; Francis, A. W.; Riley, M. F.; Kobayashi, H.Dilute Oxygen Combustion1996
372 Dilute Oxygen Combustion a New Approach for Low NOx Combustion1992
373 Kobayashi, Hisashi ; Du, ZhiyouDilute Oxygen Combustion a New Approach for Low NOx Combustion1992
374 Magee, R. S.; Cesmebasi, E.Dioxin Emissions From Incineration Processes: Role of Feedstock Constituents1987
375 Beychok, Milton R.Dioxin, Furan, Particulate, and Trace Metal Emissions From Municipal Refuse Incinerators1987
376 Mournighan, Robert E.; Lee, Johannes W.; Ross, Robert W. II; Vocque, Ralph H.; Lewis, Jerry W.; Waterland, Larry R.Distribution of Volatile Trace Elements in Emissions and Residuals From Pilot Scale Liquid Injection Incineration1987
377 Varga, Gideon M. Jr.DOE Industrial Combustion Activities: Focusing on Industrial Combustion Needs Into the 21st Century1996
378 Colannino, J.DUPLEX Technology Demonstrates Sub-5 PPM NOx and CO Simultaneously Without SCR, FGR, or High Excess Air2015-09-10Paper from the AFRC 2015 conference titled DUPLEX Technology Demonstrates Sub-5 PPM NOx and CO Simultaneously Without SCR, FGR, or High Excess Air
379 Ruiz, R.Duplex-A Creative Innovation In Industrial Combustion Technology2016-09-12Paper from the AFRC 2016 conference titled Duplex-A Creative Innovation In Industrial Combustion Technology
380 Roberto RuizDuplex-A Creative Innovation in Industrial Combustion Technology2016-09-12Conference Paper
381 Martin, MatthewEarly-Stage Development of an Advanced Industrial Scale Multipoint Flare Burner2013-09-24Paper from the AFRC 2013 conference titled Early-Stage Development of an Advanced Industrial Scale Multipoint Flare Burner by Matthew Martin.
382 Cook, Charles A.; Charagundla, S. Rao; Presser, Cary; Dressler, John L.; Gupta, Ashwani K.Effect of Acoustic Atomization on Combustion Emissions1996
383 Rogers, Tony ; Marshall, John J.Effect of Advanced NOx Control Options on Furnace Exit Gas Temperature and Water Wall Heat Flux in a Utility Boiler1991
384 Timothy, L. D.; Neville, M. ; Beer, J. M.; Sarofim, Adel F.Effect of Coal Particle Temperature on Ash Vaporization1982
385 Morgan, M. E.Effect of Coal Quality on the Performance of Low-NOx Burners1988
386 Muzio, L. J.; Hack, R. L.; Teixeira, D. P.The Effect of Combustion Modifications on SCR Performance1994
387 Miyasato, M. M.; Moyeda, David K.; Sowa, W. A.; Samuelsen, G. S.The Effect of Fuel and Air Mixing on NOx Production in a Model Industrial Natural Gas Fired Burner1992
388 Waibel, Richard T.; Athens, L.; Claxton, M.Effect of Fuel Composition on Emissions from Ultra Low NOx Burners1995
389 Edwards, C. F.; Goix, P. J.Effect of Fuel Gas Composition and Excess Air on VOC Emissions and Flame Structure of a Small-Scale Industrial Burner1995
390 Tumati, Prasad R.; Partridge, Patricia A.; Cernansky, Nicholas P.; Cohen, Richard S.Effect of Fuel Structure on Oxygenated Aromatic Species in a Premixed Flat Flame1985
391 Walsh, Peter M.Effect of Incoming Mixing on Carbon Loss from a Pulverized Coal-Fired Burner1995
392 Effect of Low-Nox Firing Conditions on Carbon-in-ash in a Wall Fired Boiler1998
393 Hase, Koji; Kori, Y.Effect of Premixing of Fuel and Air on NOx Formation1994
394 Phelan, W. J.The Effect of Pulverised Coal Type and Burner Parameters When Staging Air Combustion for NOx Reduction1983
395 Gera, D.; Kim, Dong-Hee; Gautam, MridulEffect of Soot on NOx Emissions in an Oil Fired Industrial Glass Melting Furnace1999
396 Richards, G. A.; Meyer, C.; Logan, R.; Anderson, R. J.Effect of Surface Temperature on Coal Mineral Deposition in Heat Engines1988
397 Teixeira, Donald P.; Muzio, Lawrence J.; Montgomery, Tami A.Effect of Trace Combustion Species on SNCR Performance1991
398 Sobiesiak, A.; Kropinski, A.Effects of 02 Enrichment on the Preformance of a Low NOx Burner1994
399 Zhan, Z.Effects of Coal Blends on Formation Mechanisms of Ash Aerosol and Ash Deposits during Air and Oxy-Combustion2015-09-11Paper from the AFRC 2015 conference titled Effects of Coal Blends on Formation Mechanisms of Ash Aerosol and Ash Deposits during Air and Oxy-Combustion
400 Ohyatsu, Noriyuki; Okiura, Kunio; Akiyama, IwaoThe Effects of Coal Particle Size on Reductions of NOx and Unburnt Carbon1991
301 - 400 of 1,104