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|
Creator | Title | Date | Description |
301 |
|
Facchiano, Anthony | Design & Operating Objectives of Low NOx Burners When Used in Industrial Package Boiler Applications | 1992 | |
302 |
|
Urbas, J.; Boyle, John M. | Design Optimization and Economic Analysis of SNCR/SCR Hybrid on a Utility Boiler in the Ozone Transport Region | 1998 | |
303 |
|
Latham, C. E.; LaRue, Albert D.; LaRose, J. A. | Designing Air Staging Systems with Mathematical Modeling | 1994 | |
304 |
|
De Michele, G; Pasini, S.; Ligasacchi, S.; Tognotti, Leo | Designing Low NOx Combustion Systems | 1996 | |
305 |
|
Hedman, P. O.; Highsmith, J. R.; Soelberg, N. R.; Smoot, L. D. | Detailed Local Measurements in the BYU Entrained Coal Gasifier | 1982 | |
306 |
|
Verma, I. | Detailed Soot Modeling in Turbulent Kerosene/air Diffusion Flame: Sensitivity Analysis of Models Using Moment of Methods | 2018-09-18 | Paper 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 Diagnostics | 2013-09-25 | Paper 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 Models | 1996 | |
309 |
|
Regan, John W.; von Hein, Robert J.; Peletz, Lawrence J. Jr.; Wesnor, James D. | Developing ABBs LEBS Technologies | 1996 | |
310 |
|
Suzukawa, Yutaka; Mori, Isao; Sugiyama, Syunichi; Hasegawa, Toshiaki | Development and Application of Direct Fired Regenerative Burner Heating System | 1998 | |
311 |
|
Taylor, Curtis | Development and Commercialization of an Advanced, Low-Emissions, Multi-Fuel Oxygen Burner | 1994 | |
312 |
|
Crimmins, J.; Khinkis, M.; Kunc, V.; Korenberg, Dr. J.; Reider, C. | Development and Commercialization of an Efficient Cyclonic Incinerator for Wastes | 1987 | |
313 |
|
Jamaluddin, J. | Development and Demonstration of a Fuel-Flexible Burner for Fired Heaters | 2014-09-10 | Paper 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 Burners | 1998 | |
315 |
|
Benson, Charles; Thijssen, Johannes; Loftus, Peter; Moreland, Don; Moore, Ed; Irwin, Bruce; Gemmer, R. V.; Lingras, Anil; Swistock, Harry | Development and Demonstration of the Low NOx StAR Burner for High Temperature Industrial Furnaces | 1994 | |
316 |
|
Sullivan, John D.; Webb, Andrew W. | Development and Demonstration of the Radiation Stabilized Burner for Boilers and Process Heaters | 1996 | |
317 |
|
Khinkis, M. J.; Kunc, V.; Romanovich, P. | Development and Operation of an Efficient Cyclonic Incineration Demonstration System for Industrial Wastewater | 1987 | |
318 |
|
| Development and Performance Evaluation of the New Low NOx CGRI Burner for Use with High Air Preheat | 1997 | |
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 Program | 1994 | |
320 |
|
Jamaluddin, Jamal; Benson, Charles; Pellizzari, Roberto; Marty, Seth; Young, Thomas; Isaacs, Rex; Renk, Joseph | Development of a Fuel-Flexible Burner for Process Plants | 2012-09-06 | |
321 |
|
Bortz, Steven J.; Yang, Shyh-Ching | Development of a Generalized Burner Design Procedure | 1990 | |
322 |
|
Lifshits, Vladimir | Development of a High Performance Versatile Low NOx Burner | 1996 | |
323 |
|
Matt Whelan | Development of a Low NOx Burner for Combined Cycle Gas Turbine/ Once-Through Steam Generator System | 2016-09-13 | Conference paper |
324 |
|
Whelan, M. | Development of a Low NOx Burner for Combined Cycle Gas Turbine/ Once-Through Steam Generator System | 2016-09-13 | Paper 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 Boilers | 1981 | |
326 |
|
Rahbar, Shahrzad | Development of a Low NOx Burner for Use with Preheated Combustion Air | 1994 | |
327 |
|
Stretton, A. J. | The Development of a Low NOx High Intensity Burner | 1994 | |
328 |
|
Loftus, Peter; Benson, Charles; Wiener, William; Cole, Robert; Porter, James; Manthei, Dennis; Dolan, William | Development of a Low-NOx Burner for Direct-Fired Absorption Chillers | 1994 | |
329 |
|
Lewis, Elliot-Sullivan; Hack, Richard; McDonell, Vincent | Development of a modular supplemental burner for optimization of distributed generation/combined heat and power system efficiency | 2011 | Increased 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. Llorente | The Development of a Relationship Between Percentage of Oxygen Enrichment of Primary Air, Flue Gas Tempertaure And Fuel (Sasol Gas) Savings | 1985 | |
331 |
|
Kimura, K.; Ichimiya, M.; Tanaka, S. | Development of a Slit Burner | 1985 | |
332 |
|
Yoshigae, Takeo; Suzuki, Tomio | Development of a Sludge Slagging Combustor | 1990 | |
333 |
|
Shareh, F.B. | Development of a Sub-Surface Burner Technology for In-Situ Heating | 2015-09-11 | Paper 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, Yozo | Development of a Technique for Removal of Organic Sulfur Compounds in Coke Oven Gas | 1991 | |
335 |
|
Kaneda, H.; Yamazaki, K.; Kiyama, K.; Karki, K. C.; Patankar, S. V. | Development of a Three Dimensional Coal Combustion Model | 1991 | |
336 |
|
Yegian, D. T.; Cheng, R. K. | Development of a Vane Swirler for Use in a Low NOx Weak Swirl Burner | 1996 | |
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 Application | 1995 | |
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 System | 1995 | |
340 |
|
Knill, K. J.; Collin, R. | Development of an International Flame Research Foundation Working Group on Waste Incineration | 1987 | |
341 |
|
Lennox, N. D.; Smith, A. C. | The Development of an Oxygen-Pulverised Fuel Burner for Energy Savings and Production Increases | 1988 | |
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 Coal | 1992 | |
343 |
|
Lifshits, Vladimir; Drennan, Scott A. | Development of an Ultra Low NOx Burner with Widened Stability Limits | 1998 | |
344 |
|
Anderson, K. | Development of an Ultra-Low NOx Gaseous Fuel Burner for OTSG Applications | 2016-09-13 | Paper from the AFRC 2016 conference titled Development of an Ultra-Low NOx Gaseous Fuel Burner for OTSG Applications |
345 |
|
Kevin Anderson | Development of an Ultra-Low NOx Gaseous Fuel Burner for OTSG Applications | 2016-09-13 | Conference paper |
346 |
|
Xiong, Tian-yu; Khinkis, Mark J.; Coppin, William P. | The Development of an Ultra-Low-Emission Gas-Fired Cyclonic Combustor | 1991 | |
347 |
|
| Development of CCME National Emission Guidelines for Commercial/ Industrial Broilers, Heaters and Cement Kilns | 1997 | |
348 |
|
Anzawa, Norio; Hisasue, Osamu; Adachi, Koji | Development of Combustion Technology with Foam of Liquid Fuel and Air | 1994 | |
349 |
|
Futagami, Nobuhiro; Kubo, Hideho; Nakamura, Masaru; Tanaka, Kunihiro; Takehara, Tsuguo; Oiyama, Daisuke | Development of Curtain Wall Flame Burner | 1984 | |
350 |
|
Nakagawa, T.; Karube, K.; Hara, K.; Ozaki, J. | Development of Efficient Combustion Technology Applying High Cycle Regenerative Heat Exchange System | 1998 | |
351 |
|
| Development of EFSOP and the Application of Post Combustion in Electric Arc Furnaces | 1997 | |
352 |
|
Hsu, Heng-Wen; Chu, Hsin; Chen, Ming-Der | Development of Flue Gas Desulfurization Technology in Taiwan | 1991 | |
353 |
|
| Development of Low NOx Burners and Low NOx Air Register | 1979 | |
354 |
|
| Development of Low NOx High Performance Industrial Burner | 1992 | |
355 |
|
Klein, Manfred | Development of National Emission Guidelines for Stationary Combustion Turbines | 1994 | |
356 |
|
Sato, Kuniaki; Muto, Shinichiro; Futagami, Nobuhiro; Yanagishima, Fumiya; Shimoyama, Yuzi | Development of New Type Gas Burner for Radiant Tube | 1984 | |
357 |
|
Murakami, Hideki; Fujioka, Masato; Hase, Masataka; Saito, Toshiaki; Hayashi, Junichi | Development of Oxygen COG Combustion System for Steel Reheating | 1996 | |
358 |
|
Kaminaka, Motofumi; Okada, Seiji; Fujiwara, Michitake | Development of Oxygen Jet Burner in Electric Arc Furnace | 1998 | |
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 Load | 1994 | |
360 |
|
Suzuki, Yutaka; Kaminaka, Motofumi; Takashima, Hiroyuki | Development of Reducing and Direct Fire Heating Technology | 1991 | |
361 |
|
Hagiwara, A.; Higashi, Y.; Suzuki, T. | Development of Reformer Burner Design Criteria for Pressurized Fuel Cell Power Plant Application | 1991 | |
362 |
|
Tada, T.; Akiyama, T.; Kawamoto, M.; Kikukawa, H. | Development of Regenerative Burner System for Radiant Tubes | 1991 | |
363 |
|
Fukuda, K.; Shima, H.; Hoshijima, Y.; Yamamoto, H.; Onuki, K. | Development of RH-Multi-Function-Burner | 1995 | |
364 |
|
Kokura, Yoshihiro; Ichiraku, Yuichi; Matsumura, Masahiko; Yoshida, Toshio | Development of Supplementary Firing Burner for Gas Turbine Repowering System | 1994 | |
365 |
|
Suzuki, Yutaka; Kaminaka, Motofumi; Kaburagi, Katuhiko; Yabuki, Kunihiro | Development of Swirl Burner Series for Steel Making Processes | 1994 | |
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 System | 1994 | |
367 |
|
| Development of the MIT-RSFC Low NOx Burner for Pulverized Coal Combustion | 1994 | |
368 |
|
| Development Program and Operating Experience of Pulverized Coal Staged Combustion Burners for Steam Boilers | 1979 | |
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 Equipment | 1998 | |
370 |
|
Scotto, Mark V. | Diesel Burner Development for 500-Watt Portable Thermophotovoltaic Generator | 1999 | |
371 |
|
Ryan, H. M.; Francis, A. W.; Riley, M. F.; Kobayashi, H. | Dilute Oxygen Combustion | 1996 | |
372 |
|
| Dilute Oxygen Combustion a New Approach for Low NOx Combustion | 1992 | |
373 |
|
Kobayashi, Hisashi ; Du, Zhiyou | Dilute Oxygen Combustion a New Approach for Low NOx Combustion | 1992 | |
374 |
|
Magee, R. S.; Cesmebasi, E. | Dioxin Emissions From Incineration Processes: Role of Feedstock Constituents | 1987 | |
375 |
|
Beychok, Milton R. | Dioxin, Furan, Particulate, and Trace Metal Emissions From Municipal Refuse Incinerators | 1987 | |
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 Incineration | 1987 | |
377 |
|
Varga, Gideon M. Jr. | DOE Industrial Combustion Activities: Focusing on Industrial Combustion Needs Into the 21st Century | 1996 | |
378 |
|
Colannino, J. | DUPLEX Technology Demonstrates Sub-5 PPM NOx and CO Simultaneously Without SCR, FGR, or High Excess Air | 2015-09-10 | Paper 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 Technology | 2016-09-12 | Paper from the AFRC 2016 conference titled Duplex-A Creative Innovation In Industrial Combustion Technology |
380 |
|
Roberto Ruiz | Duplex-A Creative Innovation in Industrial Combustion Technology | 2016-09-12 | Conference Paper |
381 |
|
Martin, Matthew | Early-Stage Development of an Advanced Industrial Scale Multipoint Flare Burner | 2013-09-24 | Paper 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 Emissions | 1996 | |
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 Boiler | 1991 | |
384 |
|
Timothy, L. D.; Neville, M. ; Beer, J. M.; Sarofim, Adel F. | Effect of Coal Particle Temperature on Ash Vaporization | 1982 | |
385 |
|
Morgan, M. E. | Effect of Coal Quality on the Performance of Low-NOx Burners | 1988 | |
386 |
|
Muzio, L. J.; Hack, R. L.; Teixeira, D. P. | The Effect of Combustion Modifications on SCR Performance | 1994 | |
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 Burner | 1992 | |
388 |
|
Waibel, Richard T.; Athens, L.; Claxton, M. | Effect of Fuel Composition on Emissions from Ultra Low NOx Burners | 1995 | |
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 Burner | 1995 | |
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 Flame | 1985 | |
391 |
|
Walsh, Peter M. | Effect of Incoming Mixing on Carbon Loss from a Pulverized Coal-Fired Burner | 1995 | |
392 |
|
| Effect of Low-Nox Firing Conditions on Carbon-in-ash in a Wall Fired Boiler | 1998 | |
393 |
|
Hase, Koji; Kori, Y. | Effect of Premixing of Fuel and Air on NOx Formation | 1994 | |
394 |
|
Phelan, W. J. | The Effect of Pulverised Coal Type and Burner Parameters When Staging Air Combustion for NOx Reduction | 1983 | |
395 |
|
Gera, D.; Kim, Dong-Hee; Gautam, Mridul | Effect of Soot on NOx Emissions in an Oil Fired Industrial Glass Melting Furnace | 1999 | |
396 |
|
Richards, G. A.; Meyer, C.; Logan, R.; Anderson, R. J. | Effect of Surface Temperature on Coal Mineral Deposition in Heat Engines | 1988 | |
397 |
|
Teixeira, Donald P.; Muzio, Lawrence J.; Montgomery, Tami A. | Effect of Trace Combustion Species on SNCR Performance | 1991 | |
398 |
|
Sobiesiak, A.; Kropinski, A. | Effects of 02 Enrichment on the Preformance of a Low NOx Burner | 1994 | |
399 |
|
Zhan, Z. | Effects of Coal Blends on Formation Mechanisms of Ash Aerosol and Ash Deposits during Air and Oxy-Combustion | 2015-09-11 | Paper 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, Iwao | The Effects of Coal Particle Size on Reductions of NOx and Unburnt Carbon | 1991 | |