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Creator | Title | Date | Description |
1 |
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Benisti, Jean-Claude ; Vabre, C. ; Chapus, A. | The "Comburimetre" and its Use in Combustion Control | 1986 | |
2 |
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Giaier, T.; Cron, D.; Shahid, I.; Rosen, T.; Rabovitser, I.; Cygan, D.; Robert,M. | 20 MMBtu/h FIR Burner Test Results: High Efficiency and Very Low NOx with No FGR | 1997 | TECHNOLOGY SUMMARY Develop a very low emissions, natural gas-fired burner for new and retrofit applications to industrial and utility watertube boilers and process fluid heaters in the range of 1.2 to 35 MWth (4 to 120 X 10^6 Btu/h) |
3 |
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| 2011 AFRC combustion symposium attendees | 2011-09-20 | |
4 |
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Newby, John | 21 Years of Real-World Low NOx Injection ("LNI") | 2013-09-23 | Paper from the AFRC 2013 conference titled 21 Years of Real-World Low NOx Injection ("LNI") by John Newby. |
5 |
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Baukal, C. | 4 Rules of Fired Heater Operation | 2015-09-10 | Paper from the AFRC 2015 conference titled 4 Rules of Fired Heater Operation |
6 |
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Pitz, William J.; Westbrook, Charles K. | A Chemical Kinetic Modeling Study of Chlorinated Hydrocarbon Combustion | 1990 | |
7 |
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Drennan, Scott A.; Lifshits, Vladimir; Camino, Ken; Seay, Jason E.; Pont, Jennifer N.; Gemmer, R. V. | A Combined Experimental and Numerical Approach to the Design of an Industrial Ultra Low NOx Natural Gas Fired Burner | 1996 | |
8 |
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Wheaton, Zachary; Stroh, David; Krishnamoorthy, Gautham; Muhammad, Sami; Orsino, Stefano; Nakod, Pravin | A comparative study of gray and non-gray methods of computing gas absorption coefficients and its effect on the numberical predictions of oxy-fuel combustion | | Computational Fluid Dynamics (CFD) simulations are performed to model the radiation process in natural gas fired furnaces using different gray and non-gray radiation models. Simulations of two representative furnace cases (HTAC and OXYFLAM) were performed and the computed radiative fluxes compared w... |
9 |
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Murphree, D. L.; Srikantaiah, D. V.; Stickel, R. E.; Daubach, R. O. | A Differential Ultraviolet Resonant Absorption System for the Non-Intrusive Measurement of Nitric Oxide in a Combustion Environment | 1983 | |
10 |
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Boley, Troy M.; Davis, Bruce C. | A Discussion of Concerns if Proposed Refinery Flare Rules are Applied to the Chemical Industry | 2015 | |
11 |
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Boley, T.M. | A Discussion of Concerns if Proposed Refinery Flare Rules are Applied to the Chemical Industry | 2015-09-10 | Paper from the AFRC 2015 conference titled A Discussion of Concerns if Proposed Refinery Flare Rules are Applied to the Chemical Industry |
12 |
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Yoshino, H.; Viskanta, R. | A Dynamic Thermal System Model For a Low Inertia Furnace | 1997 | |
13 |
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De Soete, Gerard G. | A Heated Grid Study of the Pyrolysis/Oxidation Competition During Ignition of Coal Dust | 1982 | |
14 |
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Floris, F.; Pasini, S.; Partesotti, C.; Quattroni, G. | A Laboratory-Scale Furnace to Study Ash Deposition and Fouling Due to Pulverized Coal Combustion | 1988 | |
15 |
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Johnson, M. R.; Kostiuk, Larry; Cheng, R. K. | A Low Emissions, Lean Premixed Burner | 1995 | |
16 |
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Sivy, J. L.; Kaufman, K. C.; Rodgers, L. W.; Koslosky, J. V. | A Low-NOx Burner Prototype Developed for B&W's Advanced Coal Fired Emission Boiler System | 1996 | |
17 |
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Stapper, Blake E.; Nelson, Thomas P.; Bell, Ronald D.; Barone, S. Peter | A Low-NOx High-DRE Burner for Co-firing Liquid Waste with Natural Gas | 1995 | |
18 |
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Annen, K.; Gruninger, J.; Stewart, G. | A Method For Extending Viscosity Prediction Formulas | 1983 | |
19 |
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Hayhurst, Jeff; Hyde, John; Menniti, Daniel | A New Approach to Combined Cross Correlation and Flicker Frequency Flame Monitoring for Very Low NOx Pulverised Fuel Burners | 1997 | |
20 |
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| A New Turbulent Combustion Model Based on Flame Surface Density Concept | 1997 | |
21 |
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Panahi, S. K.; Hemsath, K. H.; Thekdi, A. C. | A New Ultra Low NOx Combustion Technique for Preheated Combustion Air Applications | 1993 | |
22 |
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Panahi, S. K.; Hemsath, K. H.; Thekdi, Arvind C. | A New Ultra Low NOx Combustion Technique for Preheated Combustion Air Applications | 1994 | |
23 |
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Fairchild, Paul; Gat, Nahum; Witte, Arvel B. | A Non-Intrusive Sodium Line Emission Pyrometer for Coal Combustor Temperature Measurement | 1985 | |
24 |
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Niguse, Yonas, G. | A Novel Fuel-Flexible Combustor for Industrial Applications | 2013-09-24 | Paper from the AFRC 2013 conference titled A Novel Fuel-Flexible Combustor for Industrial Applications by Yonas Niguse |
25 |
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Atreya, Arvind; Kezerle, James A. | A novel method of waste heat recovery from high temperature furnaces to create radiative flameless combustion | 2009 | One of the largest heat losses in high temperature furnaces is the loss of flue gas enthalpy. Currently, up to 60% of the heating value of natural gas (or any other fuel) used in high temperature furnaces is lost via the flue gases. This work discusses the benefits and technology of re-circulating t... |
26 |
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Butler, G. W.; Lee, Jaesoo ; Ushimaru, Kenji ; Bernstein, Samual ; Gosman, A. David | A Numerical Simulation Methodology and its Application in Natural Gas Burner Design | 1986 | |
27 |
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Daly, Bart J.; Stark, Walter A. Jr. | A Numerical Study of Entrained Coal Gasification with The Conchas Spray Code | 1985 | |
28 |
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Gera, D.; Mathur, Mahendra P.; Freeman, Mark C.; Robinson, Allen L. | A Numerical Study of the Effects of Biomass Coal Cofiring on Unburned Carbon and NOx Emissions | 1999 | |
29 |
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Marlow, D.; Norton, Thomas S. | A Reduced Mechanism for Low-Heating-Value Gas Combustion in a Perfectly Stirred Reactor | 1995 | |
30 |
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Ouyang, Z. | A Study of Flameless Combustion Behavior of Pulverized Coal Preheated by Circulating Fluidized Bed | 2015-09-11 | Paper from the AFRC 2015 conference titled A Study of Flameless Combustion Behavior of Pulverized Coal Preheated by Circulating Fluidized Bed. |
31 |
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Bunt, Randolph Cedric | A Study of the Performance of a Compression-Ignition Engine with Modifications to Enhance Atomization Using Alternative Fuels | 1983 | |
32 |
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Yahagi, Masahiro; Hase, Koji | A Study on Flame Stabilization of a Perforated Porous Plate Burner | 1994 | |
33 |
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Fangmeier, Bruce A.; Himes, Richard M.; McDannel, Mark D.; Lott, Robert A.; Toole-O'Neil, Barbara | A Summary of Air Toxic Emissions from Natural Gas-Fired Combustion Turbines | 1994 | |
34 |
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Smith, Philip J. | A technology for measuring combustion efficiency of industrial & field flares (integrating measurements and simulations) | 2011-08-12 | Flare research over the past decade has increasingly illustrated that there is likely no one simple operational parameter (or even a few parameters) that will characterize the combustion behavior of flare flames.i Simple correlations are unobtainable because of the complexity of the nonlinear mixing... |
35 |
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Taylor, Philip H.; Dellinger, Barry | A Thermal Stability Based Ranking of Hazardous Organic Compound Incinerability | 1987 | |
36 |
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Jatale, Anchal; Smith, Philip; Thornock, Jeremy; Smith, Sean | A Validation of Flare Combustion Efficiency Simulations | 2012-09-05 | |
37 |
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Diaz-Ibarra, O. | A Validation Uncertainty Quantification Analysis of a 1.5 MW Oxy-Coal Fired Furnace | 2015-09-11 | Paper from the AFRC 2015 conference titled A Validation Uncertainty Quantification Analysis of a 1.5 MW Oxy-Coal Fired Furnace |
38 |
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Oscar H. Diaz-Ibarra | A Validation/Uncertainty Quantification (V/UQ) Analysis for a 1.5 MW Oxy-coal Fired L1500 Furnace using a Swirling Boundary Condition | 2016-09-12 | Conference Paper |
39 |
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Diaz-Ibarra, O.H. | A Validation/uncertainty Quantification Analysis for a 1.5 MW Oxy-coal Fired L1500 Furnace using a Swirling Boundary Condition | 2016-09-12 | Paper from the AFRC 2016 conference titled A Validation/uncertainty Quantification Analysis for a 1.5 MW Oxy-coal Fired L1500 Furnace using a Swirling Boundary Condition |
40 |
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Carroll, C. | A Wholistic Approach to Enable the Next Era of NOx Reducing Technology in Process Burners | 2018-09-17 | Paper from the AFRC 2018 conference titled A Wholistic Approach to Enable the Next Era of NOx Reducing Technology in Process Burners |
41 |
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Shaw, Henry; Yang, Chen-Lu | Absorption of NOx Induced by Sodium Chlorite Oxidation | 1991 | |
42 |
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| Acceptable operating parameters for steam assisted flares at Purge Rates | | Flare vendors recommend that cooling steam should always be supplied to the steam injection equipment on steam assisted flare tips. However, the nomenclature of "cooling steam" properly describes only one aspect of this steam flow. Not only does this steam provide thermal protection to the steam inj... |
43 |
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Kodesh, Zachary; Fox, Scott; Franklin, James | Accurate and reliable flare testing methods | 2011-08-30 | Recently the Texas Commission on Environmental Quality (TCEQ), through The University of Texas (UT) initiated a project utilizing John Zink facilities to better understand the operating envelope of varying flare technologies across various process conditions. A large scale flare testing environment ... |
44 |
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Smith, J. | Achieving Environmental Compliance through Proper Destruction Efficiency of Low-Profile Flare Systems | 2014-09-08 | Paper from the AFRC 2014 conference titled Achieving Environmental Compliance through Proper Destruction Efficiency of Low-Profile Flare Systems by J.D. Smith. |
45 |
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Gull, W. | Achieving Heater Resiliency: The Role of Radiant Tube Support and Stack Damper Performance | 2017-12-11 | Paper from the AFRC 2017 conference titled Achieving Heater Resiliency: The Role of Radiant Tube Support and Stack Damper Performance |
46 |
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Isaacs, Rex K. | Achieving Ultra-Low NOx Emissions in Methanol Downfired Reformer Applications | 2013-09-24 | Paper from the AFRC 2013 conference titled Achieving Ultra-Low NOx Emissions in Methanol Downfired Reformer Applications by Rex Isaacs |
47 |
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Brown, Lynn D. | Achieving Ultra-Low Sulfur Levels in Refinery Fuel Gas | 1991 | |
48 |
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Spellicy, Robert L. | Active and passive FTIR monitoring of flare combustion efficiency | | |
49 |
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Industrial Monitor & Control Corporation | Active and passive monitoring of flare combustion efficiency | 2011-09-19 | |
50 |
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Mangal, R.; Mozes, M.; Gaikwad, R.; Thampi, R.; MacDonald, D. | Additive Injection for NOx Control | 1989 | |
51 |
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Mochida, Susumu; Hasegawa, Toshiaki; Tanaka, Ryoichi | Advanced Application of Excess Enthalpy Combustion Technology to Boiler Systems | 1993 | |
52 |
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Morgan, D. J.; Van de Kamp, W. L. | Advanced Burners for Coal Fired Boilers | 1996 | |
53 |
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Dugué, Jacques; Drasek, W. Von; Samaniego, J. M.; Charon, O.; Oguro, T. | Advanced Combustion Facilities and Diagnostics | 1998 | |
54 |
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Smith, Joseph D. | Advanced Design Optimization of Combustion Equipment for BioEnergy Systems Using Sculptor with CFD Tools | 2013-09-23 | Paper from the AFRC 2013 conference titled Advanced Design Optimization of Combustion Equipment for BioEnergy Systems Using Sculptor with CFD Tools by Joseph Smith. |
55 |
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Smith, J.D. | Advanced Design Optimization of Combustion Equipment Using Sculptor with CFD Tools | 2014-09-10 | Paper from the AFRC 2014 conference titled Advanced Design Optimization of Combustion Equipment Using Sculptor with CFD Tools by J.D. Smith. |
56 |
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Widmer, Neil C.; Cole, Jerald A.; Koppang, R.; Gemmer, R. V.; Gensler, Wayne | Advanced Diagnostic Evaluation of an Ultra-Low NOx Industrial Gas Burner | 1995 | |
57 |
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Nutcher, Peter B.; Kolczynski, Joe | Advanced Fluid Bed Combustor for Thermal Disposal of Industrial Wastes | 1990 | |
58 |
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| Advanced Models for Predicting Carbon Burn Out and NOx Formation in Coal Combustion | 1997 | |
59 |
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Rehmat, Amir ; Khinkis, Mark | Advanced Multipurpose Incinerator | 1990 | |
60 |
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Chen, S. L.; Lyon, R. K.; Seeker, W. R. | Advanced Non-Catalytic Post Combustion NOx Control | 1990 | |
61 |
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Kramlich, J. C.; Cole, J. A.; Lyon, R. K.; Chen, S. L.; Pershing, David W. | Advanced NOx Control With Selective Reduction Agents | 1988 | |
62 |
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Sullivan, John D.; Pam, R. L. | Advanced Radiant Combustion System for High Temperature Petrochemical Process Heaters | 1992 | |
63 |
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Sullivan, John D. | Advanced Radiant Combustion Systems for Petrochemical Process Heaters | 1994 | |
64 |
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Moyeda, D.; Sheldon, M.; Koppang, R.; Lanyi, M.; Li, X.; Eleazer, B. | Advanced Steel Reheat Furnace | 1997 | |
65 |
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Katsuki, Masashi | Advancement of Furnace Technology by Highly Preheated Air Combustion and Its Future Evolution | 1998 | |
66 |
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Drennan, Scott A.; Vijay, Mandayam | Advances in Low NOx Residual Oil Firing For Boilers | 1999 | |
67 |
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William C. Gibson | Advantages of a Tangentially Fired Delayed Coker Heater (Conventional or Flameless) to Increase Run Lengths and Monitor Combustion | 2016-09-12 | Conference Paper |
68 |
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Gibson, W.C. | Advantages of a Tangentially Fired Delayed Coker Heater (Conventional or Flameless) to Increase Run Lengths and Monitor Combustion | 2016-09-12 | Paper from the AFRC 2016 conference titled Advantages of a Tangentially Fired Delayed Coker Heater (Conventional or Flameless) to Increase Run Lengths and Monitor Combustion |
69 |
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Evans, S. | Adventures in Flaring | 2015-09-10 | Paper from the AFRC 2015 conference titled Adventures in Flaring |
70 |
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Kraus, K. | AERO Radiant Wall Burner for Ethylene Cracking and Steam Methane Reforming | 2016-09-13 | Paper from the AFRC 2016 conference titled AERO Radiant Wall Burner for Ethylene Cracking and Steam Methane Reforming |
71 |
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Kurt Kraus | Aero Radiant Wall Burner for Ethylene Cracking and Steam Methane Reforming | 2016-09-13 | Conference Paper |
72 |
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Edwards, C. F. | Aerodynamics of a Steady Spray Flame in the Near-Injector Region of a Research Furnace by Laser Doppler Velocimetry | 1989 | |
73 |
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Barton, R. G.; Seeker, W. R. | Affect of System Operation on Toxic Air Emissions | 1990 | |
74 |
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Seebold, James G. | AFRC 2008 international flare consortium update | 2008 | |
75 |
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Seebold, James G. | AFRC 2009 international flare consortium update | 2009 | |
76 |
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AFRC | AFRC 2012 Meeting Agenda | 2012-09-05 | |
77 |
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Yamagishi, M. ; Yokoyama, T. ; Shibuya, E. | Air Pollution Control for Waste to Energy Plants | 1987 | |
78 |
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Bluestein, Joe | Air Regulatory Outlook for Combustion Processes | 1996 | |
79 |
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Elbaz, A.M. | Air staged double swirl low NOx LPG burner | 2015-09-11 | Paper from the AFRC 2015 conference titled Air staged double swirl low NOx LPG burner |
80 |
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Wendt, J. O. L.; Mereb, J. B. | Air Staging and Reburning Mechanisms for NOx Abatement in a Laboratory Coal Combustor | 1991 | |
81 |
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Demayo, T. N.; Miyasato, M. M.; Samuelsen, G. S. | Air Toxic Measurements in Different Model Industrial Applications | 1999 | |
82 |
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Moody, K.J. | Alkaline Hydrolysis Resistant and Durable Refractory Linings for Fired Process Heaters | 2017-12-12 | Paper from the AFRC 2017 conference titled Alkaline Hydrolysis Resistant and Durable Refractory Linings for Fired Process Heaters |
83 |
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Jim Seebold | All Talk and No Do! Why No Reported Successes In Optimizing Industrial Flare CEs and DREs by Automatic Control to the Incipient Smoke Point? | 2013-09-25 | Paper from the AFRC 2013 conference titled All Talk and No Do! Why No Reported Successes In Optimizing Industrial Flare CEs and DREs by Automatic Control to the Incipient Smoke Point? by Jim Seebold. |
84 |
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Skarda, James | Alloy Selection and Design Considerations for High Temperature Service | 1989 | |
85 |
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Nakamura, Yasuhisa | Aluminum Heating Technique Using an Immersion-tube Burner | 1991 | |
86 |
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| American flame research committee (AFRC) international combustion symposium | 2011 | Burner retrofits in industrial boilers are an economical solution to achieving lower NOx levels with existing fired equipment. However, designing a next generation ultra-low NOx burner footprint that fits into an existing burner cutout continues to be an industry challenge in many applications. Buil... |
87 |
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Loftus, Jordan | American Flame Research Committee of the International Flame Research Foundation | 1984 | |
88 |
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Lee, C. C. Ph.D. | An Analysis of Metal Partitioning in a Hazardous Waste Incineration System | 1987 | |
89 |
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Krauss, W. E.; Singh, S. N. | An Assessment of the Utilization of Coal Oil Mixtures in Firetube Boilers | 1982 | |
90 |
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Stickler, D.; Gannon, R.; Young, L.; Annamalai, K. | An Engineering Model for Pulverized Fuel Combustion Stability | 1983 | |
91 |
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Noble, Roger K.; Keller, Michael R.; Schwartz, Robert E. | An Experimental Analysis of Flame Stability of Open Air Diffusion Flames | 1984 | |
92 |
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Gollahalli, S. R.; Siddiqui, N. | An Experimental Study of the Burning Spray of an Unstabilized Synthetic Oil Water Emulsion | 1984 | |
93 |
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Bai, T.; Yeboah, Y. D.; Sampath, R.; Farnsworth, C.; Mocsari, J. | An Experimental Study of the Effects of Natural Gas Composition Variations on Fan Powered Infrared (PIR) Burners | 1996 | |
94 |
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Yap, Loo T.; Yetter, Richard A. | An Inquiry Into the Fundamental Causes of Incineration Emissions | 1990 | |
95 |
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Breault, Ronald; Litka, Anthony; McClaine, Andrew; Chamberland, Ray P.; McNeil, David T.; Wilsoncroft, Tom | An Integrated Cullet/Batch Preheater System for Oxygen-Fuel Fired Glass Furnaces | 1996 | |
96 |
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Walsh, Peter M.; Li, Chengzhi; Beer, Janos M. | An Interpretation of Time-Resolved Oxygen Concentration Measurements in Coal-Burning Fluidized Beds | 1983 | |
97 |
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Rey-Chein, Chang ; Wen-Chieh, Chen ; Wen-Chen, Chang | An Investigation of Aromatic Derivatives Removal by Regenerative Combustion | 1998 | |
98 |
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Ying, Shuh-Jing | An Investigation of Iron Formation on the Furnace Floor | 1983 | |
99 |
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Yang, Y. B.; Gibbs, B. M.; Hampartsoumian, E. | An Investigation of NO Reduction by Coal Reburning | 1998 | |
100 |
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Dupont, V.; Pourkashanian, Mohamed; Williams, Alan | An Investigation of Ultra Low NOx Natural Gas Burners | 1992 | |