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|
Creator | Title | Date | Description |
1001 |
|
Annamalai, K.; Gannon, R. E.; Stickler, D. B. | Slag Rejection in Cyclone Combustor | 1983 | |
1002 |
|
Singh, S. N.; Austin, L. G.; Krauss, W. E.; Essenhigh, R. H. | Slagging Behavior of Coal Ash in an Experimental Furnace | 1982 | |
1003 |
|
Yin, C. F.; Bormann, H. | Slurry Combustion Using an Ultrasonic Burner | 1982 | |
1004 |
|
Hubbard, Dennis G.; Himes, Richard M.; Cunningham, Mike; Mellish, Debra L.; Broderick, R. Gifford; O'Leary, John; Hofmann, John E.; Stallings, Jeff | SNCR Demonstrating of NOx Control for a Cyclone Fired Boiler Burning High Sulfur Coal | 1994 | |
1005 |
|
Gurski, William | Solid Fuel to Natural Gas Conversions for Existing Boiler Applications | 2013-09-25 | Paper from the AFRC 2013 conference titled Solid Fuel to Natural Gas Conversions for Existing Boiler Applications by William Gurski |
1006 |
|
Pagot, P. R.; Grandmaison, E. W.; Sobiesiak, A. | Some characteristics of multi-jet flares | 2004 | Results of a test program with a multi-jet, high momentum burner simulating many of the features found in offshore flare systems are described. Previous work (Pagot et al., 2003) has given background on a hot and cold model study for this type of flare. The features of the flare flames are described... |
1007 |
|
Freeman, R. A. | Some Innovative Techniques in the Glass Industry | 1986 | |
1008 |
|
Goh, S. F.; Gollahalli, S. R. | Soot and OH distribution at the smoke point of diluted propylene-hydrogen mixture diffusion flames in cross-flow | 2004 | An experimental study of smoke point diffusion flames in cross-flow is presented from the perspective of understanding the role of hydroxyl (OH) radicals and oxygen molecules on soot concentration. The laser induced incandescence (LII) and the laser induced fluorescence (LIF) techniques were employe... |
1009 |
|
Edwards, C. F.; Fornaciari, N. R.; Dunsky, C. M.; Marx, K. D.; Ashurst, W. T. | Spatial Structure of a Confined Swirling Flow Using Planar Elastic Scattering and Laser Doppler Velocimetry | 1991 | |
1010 |
|
| Spectral Radiation from Flames | 1998 | |
1011 |
|
Essenhigh, Katherine; Aldemir, Tunc; Baker, Gregory | Stability Analysis of a Perfectly Stirred Reactor | 1995 | |
1012 |
|
Yegian, D. T.; Cheng, R. K. | Stability Characteristics and Emission Levels of a Laboratory Hot Water Heater Utilizing a Weak-Swirl Burner | 1995 | |
1013 |
|
Collin, Rolf; Goransson, Olle | Staged Air Fuel Injection for NOx Reduction-- Modelling and Experiments in a 125MW Boiler | 1991 | |
1014 |
|
Rehmat, Amir; Dorfman, Lev; Shibayama, George; Waibel, Richard T. | Staged Fluidized-Bed Coal Combustor for Boiler Retrofit | 1991 | |
1015 |
|
Reuther, James J. | Standardized Flame/NonFlame, Coal/Non-Coal Ignition/Burnout Time Tests for Neat Pulverized Coals and their Slurries | 1983 | |
1016 |
|
Nutcher, Peter B.; Lewandowski, David A.; Waldern, Peter J. | State-of-the-Art Ultra Low NOx Burner | 1992 | |
1017 |
|
Pohl, John; Gogolek, Peter E.G.; Seebold, J. G.; Schwartz, Robert | Statistical correlation of flame properties with combustion and destruction efficiency | 2011-02-11 | This paper seeks to investigate the correlation of flame properties with flare combustion and destruction efficiency and statistically select the most accuracy correlation. First, the previous correlation will be reviewed. Then new correlations of flame properties with combustion and destruction wil... |
1018 |
|
Becker, Fred; Breault, Ronald; Litka, Anthony; McClaine, Andrew; Shukla, Kailash; Jayakaran, Jaiwant D.; Strupp, Christoph | Status Report on the Development of the VIStA Combustor for Very Low NOx Emissions in Furnaces and Boilers | 1998 | |
1019 |
|
Fox, Scott | Steamizer XP next generation steam flare technology - presentation | 2009 | |
1020 |
|
| The Strong-Jet/Weak-Jet Problem and Aerodynamic Modelling of the CGRI Burner | 1997 | |
1021 |
|
Pohl, J. H.; Soelberg, N. R.; Poncelet, E.; Tichenor, B. A. | The Structure of Large Flames | 1985 | |
1022 |
|
Essenhigh, Robert H.; Maclellan, David E. | Studies in Furnace Analysis: Evaluation of Performance Characteristics of a Laboratory Furnace | 1995 | |
1023 |
|
Chen, S. L.; Moller, E. C.; Heap, M. P.; Pershing, David W. | Studies on Enhancement of Reburning for Advanced NOx Control in Coal-Fired Boilers | 1988 | |
1024 |
|
Payne, R.; Akiyama, T.; Witkamp, J.; Delft, J. | Studies on the pollutant emission characteristics of a number of oil-fired industrial process burners and the relationship to firing conditions | 1980 | |
1025 |
|
Rue, D. M.; Kunc, Walter; Nosovitsky, Victor A.; Olabin, Vladimir M.; Maximuk, Alexander B. | Submerged Combustion Melter | 1997 | |
1026 |
|
Zghoul, Ali M.; Grosshandler, William L. | Sulfur and Nitrogen Devolatilization From Pulverized Coal in an Opposed-Flow Diffusion Flame | 1985 | |
1027 |
|
Stouffer, M. R.; Wu, M. M.; Yoon, H.; Winschel, R. A. | Support Activities for the Edgewater Coolside Process Demonstration | 1988 | |
1028 |
|
Nelson, Robert E. | Supported Continuous Fiber Burner | 1992 | |
1029 |
|
| Symposium Program | 1983 | |
1030 |
|
Edelman, R. B.; Harsha, P. T. | Synthetic Fuel Combustion Characterization | 1984 | |
1031 |
|
Varney, A. M.; Beck, J. K. | Technical Assessment of Refined Biomass Burn Demonstration at Florida State Hospital | 1982 | |
1032 |
|
Smoot, L. Douglas; Smith, Joseph D.; Jackson, Robert E. | Technical foundations to establish new criteria for efficient operation of industrial steam-assisted gas flares - presentation | 2009 | |
1033 |
|
Tatsuda, Takashi | Techniques for NOx Reduction in Industrial Furnaces | 1991 | |
1034 |
|
Burk, Norm ; Woolbert, Gordon | Technologies for Low Cost Combustion Control | 1986 | |
1035 |
|
Pohl, J. H.; Lanier, W. S.; Keller, J. ; Patton, J. ; Jain, R. | Technologies to Increase the Efficient Use of Energy in the Process Industries | 1986 | |
1036 |
|
Reid, Charles; Thornock, Jeremy; Smith, Philip | Temporally and spatially resolved calculations of a reacting coal jet using large eddy simulations (LES) and direct quadrature method of moments (DQMOM) | 2009 | In a turbulent combusting coal jet, accurate prediction of the particle and velocity distributions are critical for predicting flame characteristics and ultimately heat flux in a coal-fired boiler. The present work combines a state-of-the-art particle model and turbulent-reacting flow model to provi... |
1037 |
|
Reid, Charles; Thornock, Jeremy; Smith, Philip | Temporally and spatially resolved calculations of a reacting coal jet using large eddy simulations (LES) and direct quadrature method of moments (DQMOM) | 2009 | In a turbulent combusting coal jet, accurate prediction of the particle and velocity distributions are critical for predicting flame characteristics and ultimately heat flux in a coal-fired boiler. The present work combines a state-of-the-art particle model and turbulent-reacting flow model to provi... |
1038 |
|
Hart, John R. P.E. | Test Results from California Full-Scale Hazardous Waste Combustors | 1990 | |
1039 |
|
Texas Commission on Environmental Quality | Texas commission on environmental quality 2010 flare study | 2011-09-19 | |
1040 |
|
Fujisaki, Wataru ; Nakamura, Tsuneaki | Thermal and NOx Characteristics of High Performance Oxy Fuel Flames | 1996 | |
1041 |
|
Choroszy-Marshall, Martha | Thermal Destruction of Biological Sludge in a Rotary Kiln | 1990 | |
1042 |
|
Chapman, Kirk S. | Thermal NOx, Promt NOx: Meeting California Emission Limits | 1994 | |
1043 |
|
Flynn, T.J. | Thermoacoustic Vibrations in Industrial Furnaces and Boilers | 2017-12-12 | Paper from the AFRC 2017 conference titled Thermoacoustic Vibrations in Industrial Furnaces and Boilers |
1044 |
|
Petersen, John R.; Keller, Mike | Third Generation Rotary Kiln System | 1993 | |
1045 |
|
Laflesh, Richard ; Lewis, R. D.; Hall, Robert E.; Kotler, V. R.; Mospan, Y. M. | Three-Stage Combustion (Reburning) Test Results from a 300-MWe Boiler in the Ukraine | 1993 | |
1046 |
|
Werkelin, Johan; Hupa, Mikko | Towards better prediction of ash related problems in biomass combustion via improved fuel analysis | 2009 | Future biomass combustion systems should be fuel flexible. To avoid operational problems such as fouling, slagging, fluidized bed agglomeration, and corrosion, the relation between ash behaviour and fuel composition needs to be known. Ash-related problems are strongly coupled to phase transitions. M... |
1047 |
|
Seebold, James G. | Toxic Combustion Byproducts | 1994 | |
1048 |
|
| Toxic Metal Emissions Abatement From Combustion Processes | 1998 | |
1049 |
|
Zygarlicke, Christopher J.; McCollor, Donald P.; Benson, Steven A. | Transformation of Trace Metals in Coal Gasification | 1994 | |
1050 |
|
Smith, J.D. | Transient Ignition of Multi-Tip Ground Flares | 2018-09-17 | Paper from the AFRC 2018 conference titled Transient Ignition of Multi-Tip Ground Flares |
1051 |
|
Crosley, Sladjana M.; Gay, Richard L. | Treatment of Waste by the Molten Salt Oxidation Process at the Oak Ridge National Laboratory | 1992 | |
1052 |
|
Venkateswaran, Prabhakar; Marshall, Andrew; Bahous, Edouard; Seitzman, J. Lieuwen, Tim | Turbulent flame speeds of high H2 mixtures | 2011 | This paper describes turbulent global consumption speed, ST,GC, measurements of H2/CO mixtures at atmospheric conditions. The turbulent flame properties of these mixtures are of strong practical interest due to the rising interest in expanding the role of coal-derived syngas fuels in the current ene... |
1053 |
|
Venkateswaran, Prabhakar; Marshall, Andrew; Bahous, Edouard; Seitzman, J. Lieuwen, Tim | Turbulent flame speeds of high H2 mixtures | 2011 | This paper describes turbulent global consumption speed, ST,GC, measurements of H2/CO mixtures at atmospheric conditions. The turbulent flame properties of these mixtures are of strong practical interest due to the rising interest in expanding the role of coal-derived syngas fuels in the current ene... |
1054 |
|
Foote, J. P.; Schulz, R. J.; Giel, T. V. Jr. | Turbulent Mixing Studies in a Secondary Combustor Model | 1983 | |
1055 |
|
Marcus, Earl G.; Frank, Robert L. Jr.; Barrier, J. W. | TVA's Proposed Laboratory-Scale Coal Combustor | 1982 | |
1056 |
|
de Boer, P. C. T. | Two Simple Models for the Noncatalytic Reduction of NO with NH3 | 1984 | |
1057 |
|
Quartucy, Greg C.; Sload, Allen W.; Afonso, Rui ; Fynan, Greg | Two Stage NOx Control on a Coal Fired Utility Boiler | 1994 | |
1058 |
|
Highley, J. | UK Developments in Industrial Coal Firing | 1982 | |
1059 |
|
Schalles, D. | Ultra Low NOx Conventional and Regenerative Burner Retrofits | 2015-09-11 | Paper from the AFRC 2015 conference titled Ultra Low NOx Conventional and Regenerative Burner Retrofits |
1060 |
|
Nutcher, Peter B.; Lewandowski, David A. | Ultra Low NOx Design for Thermal Oxidation of Waste Gases | 1993 | |
1061 |
|
Ni, Li ; Stelmar, Greg ; Ashton, Larry ; Hatfield, James R. | Ultra Low NOx Hot Water Supply Boiler Development | 1996 | |
1062 |
|
Chen, Shirley; Erazo, Jaime A. Jr.; Hendrix, Bailey; Wendel, Kirk | Ultra-low NOx burner arrangements in furnace revamps: utilization of CFD to prevent and mitigate adverse furnace flow patterns | 2011-09-18 | As NOx emission regulations continue to become more stringent, the need to retrofit existing furnaces with Ultra-low NOx burner technology will continue to rise. Ultra-low NOx emissions from process burners are typically achieved by combining staged combustion with internal flue gas recirculation. A... |
1063 |
|
Chen, Shirley; Erazo, Jaime A. Jr.; Hendrix, Bailey; Wendel, Kirk | Ultra-low NOx burner arrangements in furnace revamps: utilization of CFD to prevent and mitigate adverse furnace flow patterns | 2011 | As NOx emission regulations continue to become more stringent, the need to retrofit existing furnaces with Ultra-low NOx burner technology will continue to rise. Ultra-low NOx emissions from process burners are typically achieved by combining staged combustion with internal flue gas recirculation. A... |
1064 |
|
Gottschlich, Chad F.; Gensler, Wayne C. | Ultra-Low NOx Wall-Mounted Burners | 1991 | |
1065 |
|
Gottschlich, Chad F.; Gensler, Wayne C. | Ultra-Low NOx Wall-Mounted Burners | 1993 | |
1066 |
|
Isaacs, R. | Ultra-Low Steam Consumption, High Capacity Smokeless Flaring | 2018-09-17 | Paper from the AFRC 2018 conference titled Ultra-Low Steam Consumption, High Capacity Smokeless Flaring |
1067 |
|
Abbasi, H. A.; Khinkis, Mark J.; Cygan, David F. | Ultra-Low-Emission Burner for Boilers and Fluid Heaters | 1991 | |
1068 |
|
Gibson, William C. | Ultralow NOx TM Burner Technology to Meet SCAQMD 1109 & 1146 | 1991 | |
1069 |
|
Jenkins, B. M.; Baxter, L. L. | Uncontrolled Pollutant Emissions from Biomass Combustion Under Simulation Boiler Furnace Conditions | 1994 | |
1070 |
|
Smith, J.D. | Unmanned Aerial System (UAS) Based Flare Emissions Monitoring | 2017-12-11 | Paper from the AFRC 2017 conference titled Unmanned Aerial System (UAS) Based Flare Emissions Monitoring |
1071 |
|
Lyon, Richard K.; Cole, Jerald A. | Unmixed Combustion for Efficient Heat and Mass aTransfer in Chemical Processing Systems | 1997 | |
1072 |
|
Bergan, Nina E. | Unsteady Processes in Droplet Combustion Applications to Hazardous Waste Incineration | 1987 | |
1073 |
|
Berman, C. H.; Gill, R. J.; Calcote, H. F.; Xiong, T. Y.; Kramnik, B. | Use of an Electric Field to Enhance Stability in a Cyclonic Combustor | 1992 | |
1074 |
|
Adams, B. | Use of CFD in Evaluation Pyrolysis Furnace Design | 2014-09-10 | Paper from the AFRC 2014 conference titled Use of CFD in Evaluation Pyrolysis Furnace Design by B. Adams. |
1075 |
|
Facchiano, Anthony | Use of Computational Fluid Dynamics Modelling to Study Fuel Burnout in a Low NOx Retrofit Application | 1989 | |
1076 |
|
Mullinger, P. J.; Broadley, Gary | The Use of Modelling Techniques in the Reduction of Emissions and Energy Conservation | 1992 | |
1077 |
|
Drasek, W. Von; Duchateau, E. ; Philippe, L. | Use of Optical Sensors on Industrial Oxy-Fuel Burners for Process Control | 1997 | |
1078 |
|
Ho, Min-Da | The Use of Oxygen for Transient Incinerator Puff Reduction: Control Strategy and Field Results | 1990 | |
1079 |
|
Batra, Sushil K.; Cole, William E.; Metcalfe, Christopher I. | Use of Spectral Flame Analyzer for Combustion Control in Industrial Boilers | 1986 | |
1080 |
|
Joyce, W. I.; Urquhart, W. M. | The Use of the Pot Furnace for the Prediction of Stoker Performance | 1982 | |
1081 |
|
Smith, Scot | Use of Variable Frequency Drives for Better Destruction Efficiency of Air-Assisted Flares | 2013-09-25 | Paper from the AFRC 2013 conference titled Use of Variable Frequency Drives for Better Destruction Efficiency of Air-Assisted Flares by Scot Smith |
1082 |
|
Fornaciari, Neal; Schefer, Robert; Paul, Phillip; Sanford, Robert; Claytor, Lloyd; Lubeck, Christi | User Guide to the Burner Engineering Research Laboratory | 1994 | |
1083 |
|
Smith, J.D. | Using CFD to Optimize Flow Distribution in Gas Flare Piping | 2017-12-11 | Paper from the AFRC 2017 conference titled Using CFD to Optimize Flow Distribution in Gas Flare Piping |
1084 |
|
Tillman, David A. | Using On-Line Coal Analysis to Optimize Combustion in Utility Boilers: a 10-yr Program at Monroe Power Plant | 2012-09-07 | |
1085 |
|
Perrin, Marc; Lievoux, Philippe; Borghi, Roland; Gonzalez, Michel | Utilization of a Numerical Model for the Design of a Gas Immersion Tube | 1986 | |
1086 |
|
Alavandi, S. | Validation and Prediction of Ultra-Low NOx Burner Performance using Computational Fluid Dynamics | 2015-09-11 | Paper from the AFRC 2015 conference titled Validation and Prediction of Ultra-Low NOx Burner Performance using Computational Fluid Dynamics |
1087 |
|
Kaufman, K. C.; Fiveland, W. A. | Validation of Industrial Gas Burner Models Using In-Furnace Laboratory Measurements | 1995 | |
1088 |
|
Rabovitser, Iosif; Chan, Isaac; Loviska, Tim; Hall, David | Validation of Methane de-NOX Reburn Process for Coal Fired Spreader Stoker Boilers | 1996 | |
1089 |
|
Yang, Shyh-Ching; Juang, Ruey-Shin; Chang, Wen-Chen; Chen, Jen-Shien | Velocity Measurements on Isothermal Sudden Expanding Swirling Flow in an Industrial Burner With Bluff-Body | 1989 | |
1090 |
|
Breault, Ronald; Shukla, Kailash; Becker, Fred; McClaine, Andrew; Karan, Jay | VIStA Combustor for Very Low NOx Emissions in Furnace and Boilers | 1997 | |
1091 |
|
McClaine, Andrew; Becker, Fred; Litka, Anthony; Breault, Ronald; Shukla, Kailash; Jayakaran, Jaiwant D.; Poe, Roger; Strupp, Christoph | VISTA Combustor for Very Low NOx Emmisions in Furnaces and Boilers | 1999 | |
1092 |
|
Annen, Kurt D.; Stickler, David B.; Brown, Robert C. | Visualization of Spatially Resolved Thermal Nitric Oxide Production Rates as a Tool for Emissions Reduction and Combustion Optimization | 1999 | |
1093 |
|
Martin, Dr. Richard R.; Connally, Carl A. | Waste Gas Firing in Process Heaters and Boilers | 1984 | |
1094 |
|
Davis, Lisa A.; Miranda, Jamie E.; Richter, G. Neal; Stevenson, John S. | Waste Gasification by the Texaco Gasification Process | 1990 | |
1095 |
|
| Waste to Energy Solutions for Industry | 1997 | |
1096 |
|
Drennan, Scott A. | Waste to Energy Solutions for Industry | 1997 | |
1097 |
|
Smith, Philip J.; Thornock, Jeremy; Hradisky, Michal; Isaac, Benjamin J.; Jatale, Anchal | What can we learn about flare combustion efficiency from large eddy simulations? | 2010-09-30 | |
1098 |
|
Zeng, Yousheng | White Paper on Multi-Spectral Infrared Camera for Flare Efficiency Measurement | 2012-09-05 | |
1099 |
|
Evans, Scott; Seebold, James | Wind Effects | 2012-09-05 | |
1100 |
|
Gogolek, Peter E.G.; Hayden, A.C.S. | Wind turbulence and elevated flare flames | 2004 | |