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Creator | Title | Date | Description |
201 |
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Tillman, David A.; Reardon, Lester ; Rollins, Martha | Cofiring Alternate Fuels in Coal Fired Cyclone Boilers | 1996 | |
202 |
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Lucht, Robert P. | Coherent Anti-Stokes Raman Measurements of Temperature and Species Concentrations in Coal-Particle-Laden Combustion Flows | 1985 | |
203 |
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Hancock, Robert D.; Boyack, Kevin W.; Hedman, Paul O. | Coherent Anti-Stokes Raman Spectroscopy CARS Measurements in a Laminar Flame Coal Combustor | 1988 | |
204 |
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Mohamad, A. A.; Viskanta, R. | Combined Convection-Radiation Heat Transfer in a Surface Combustor-Heater | 1989 | |
205 |
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Seery, D. J. | Combustion 2000 - Burning Coal in the Twenty-First Century | 1992 | |
206 |
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Sharifi, Reza; Scaroni, Alan W. | Combustion Aerodynamics of a Pulverized-Coal, Low NOx Swirl Burner: Influence of Flow Types on NOx Emissions | 1996 | |
207 |
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Zeuthen, Jacob Hjerrild; Pedersen, Anne Juul; Riber, Christian; Astrup, Thomas; Hansen, Jorn; Frandsen, Flemming Jappe; Livbjerg, Hans | Combustion aerosols from municipal waste incineration - effects of feedstock composition and boiler operation | 2009 | Combustion aerosols were measured in the 22 MWth FASAN Waste-to-Energy (WtE) boiler while applying changes in feedstock composition and grate operation conditions, respectively. The changes in feedstock composition were applied by adding (one-by-one) dedicated waste fractions, comprising PVC plastic... |
208 |
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Schalles, David | Combustion Application Experience with Highly Vitiated Air Burners | 2013-09-23 | Paper from the AFRC 2013 conference titled Combustion Application Experience with Highly Vitiated Air Burners by David Schalles. |
209 |
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Gruzdev, Vladimir N.; Askerov, A. A.; Kozlov, Alexander P.; Chudnovsky, Yaroslav P. | Combustion Chambers with Microdiffusion Combustion of Gas | 1997 | |
210 |
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Knell, E. W.; Mansour, M. N. | Combustion Characterisitcs of Occidental Coal-Oil Mixtures | 1982 | |
211 |
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Ogunsola, O. I.; Reuther, J. J. | Combustion Characteristics of Alternative Liquid Fuels-I: Fuel-Bound-Nitrogen-to-NOx Conversion Efficiency as a Function of Coal-Derived Liquid Fuel Boiling Range | 1981 | |
212 |
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Guerrero, Pablo S.; Rebello, Wilfred J.; Ally, Moonis R.; Jain, Ramesh | Combustion Characteristics of Fuels With Preheated Oxygen Enriched Air | 1986 | |
213 |
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Knell, Everett W.; Muzio, Lawrence J. Ph.D. P.E.; Arand, John K. P.E. | Combustion Characteristics of Occidental Coal-Water Mixtures | 1983 | |
214 |
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Akiyama, T. ; Swatridge, R. D.; Whitehead, D. M.; Roberts, P. A. | The Combustion Characterstics of Coal in Oil Fuels | 1981 | |
215 |
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Bonne, Ulrich | Combustion Control | 1986 | |
216 |
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Burns, A. H. | Combustion Control Equipment and the Impact on Atmospheric Pollution | 1994 | |
217 |
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Bardash, Michael J.; Beyers, Stephen M.; Gouldin, Frederick C.; Wolga, George J. | Combustion Control Using Infrared Tunable Acoustooptic Filters as a Smart Sensor for On Line Determination of Gas Temperature and Composition | 1985 | |
218 |
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Ruiz, Roberto | Combustion Design Issues in Fluids and Refinery Heating | 1997 | |
219 |
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Khesin, Mark | Combustion Diagnostics Based on Frequency Spectra Analysis | 1995 | |
220 |
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Pohl, J. | Combustion Efficiency of Flares and the Effects of Wind | 2014-09-08 | Paper from the AFRC 2014 conference titled Combustion Efficiency of Flares and the Effects of Wind by J. Pohl. |
221 |
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Chambers, Allan K.; Wootton, Tony; Moncrieff, Jan; McCready, Philip | Combustion efficiency of full scale flares measured using DIAL technology | 2004 | Flares are used in Alberta's oil and gas industry to safely treat H2S containing gas releases during emergencies, and gas well flow tests and as a means of disposing of gases that cannot be recovered economically. Despite the wide use of these flares, little data exists on the combustion efficiency ... |
222 |
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Seebold, James G. | Combustion efficiency of industrial flares revisited the current status of this multivariate, multiphysics, multichemistry morass and what to do about it | 2011 | Last year, with its focus on "Industrial Flaring," TOTeM361 was the first in the IFRF TOTeM series to tap into an area which has been explored in AFRC Symposia for many years.2 Taking place 30 September - 1 October at the Sheraton Maui immediately following the AFRC 2010 Pacific Rim Combustion Sympo... |
223 |
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Boley, T.M. | Combustion Efficiency Performance Evaluation of a Variable Speed Drive Air-Assisted Flare using Passive FTIR | 2016-09-13 | Paper from the AFRC 2016 conference titled Combustion Efficiency Performance Evaluation of a Variable Speed Drive Air-Assisted Flare using Passive FTIR |
224 |
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Troy M. Boley | Combustion Efficiency Performance Evaluation of a Variable Speed Drive Air-Assisted Flare using Passive FTIR | 2016-09-13 | Conference paper |
225 |
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Chudnovsky, Yaroslav P.; Kozlov, Alexander P.; Schukin, Andrey V.; Agachev, Rustem S.; Gruzdev, Vladimir N. | Combustion Enhancement and Flame Stabilization Due to Vortex Generation | 1997 | |
226 |
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Colannino, Joseph | Combustion Enhancement Introducing Electrodynamic Combustion Control Technology-Colannino, Joseph | 2012-09-06 | |
227 |
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Smouse, Scott M.; McIlvried, Timothy S. | Combustion Evaluation of Advanced Coal Cleaning Products: Test Program and Initial Results | 1988 | |
228 |
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Filoon, C. | Combustion Flame Safeguarding | 2017-12-12 | Paper from the AFRC 2017 conference titled Combustion Flame Safeguarding |
229 |
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Liniger, Dick; Hill, Tim | Combustion Gas Scrubbing Using Free-Jet Technology | 1991 | |
230 |
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Farrar, D.; Reuther, J.; Steiger, W.; Schmitt, R.; van der Velde, R. | Combustion In Industrial Furnaces And Boilers | 1989 | |
231 |
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Gemmer, R. V. | Combustion in the 21st Century | 1996 | |
232 |
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Daley, R. D.; Withum, J. A.; Warchol, J. J.; Reuther, J. J. | Combustion Inhibition Physico Chemistry of Coal-Derived Syngas Air Flames | 1981 | |
233 |
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McQuay, M. Q.; Webb, B. W.; Baukal, C. E. | Combustion Measurements in an Industrial Gas Fired Aluminum Recycling Furnace | 1998 | |
234 |
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Yamagami, Shun | Combustion Method to Reduce NOx and Save Fuel for Burners for Forge Furnace | 1998 | |
235 |
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Maloney, K. L. | Combustion Modifications for Coal-Fired Stoker Boilers | 1982 | |
236 |
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Cundy, V. A. Ph.D.; Maples, D. Ph.D.; Burch, T. M.S. | The Combustion of a Fuel Mixture Composed of Coal and Light Fuel Oil | 1983 | |
237 |
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Van de Kamp, W. L.; Haas, J.; Verlaan, A. L.; Dacombe, P. | The Combustion of Alternative Fuels, Coal and Liquid Fuels at the IFRF Research Station in 1997-1998 | 1998 | |
238 |
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Koyama, Isao; Okiura, Kunio; Akiyama, Iwao | Combustion of Coal-Water Mixture in Test Furnace | 1983 | |
239 |
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Tsang, Wing; Burgess, D. F. R.; Babushok, Valeri | The Combustion of Highly Fluorinated Organic Compounds | 1995 | |
240 |
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Mueller, Gary R.; Agrawal, Harshit; Caico, Chris; Olivacce, Ronald | Combustion of mixtures: A modified IFC approach | 2011 | While most studies on flares have been done with single hydrocarbon fuels or binary mixtures, the reality of most industrial flares is that they see different mixtures of many gases. Over the past 5 years the International Flare Consortium (IFC) has been conducting research on just this issue. In a ... |
241 |
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Wilde, James D. | Combustion Problems in the Steel Industry | 1986 | |
242 |
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Drake, Robert A. | Combustion Progress, Problems, Needs in the Glass Industry | 1986 | |
243 |
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Seebold, James G. | Combustion R&D Needs in the Petroleum Refining Industry | 1989 | |
244 |
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Misra, Mahendra | Combustion Research Needs for Glass Industry | 1996 | |
245 |
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Richter, Wolfgang ; Kobayashi, Hisashi | Combustion Space Modelling of Oxy-Fuel Fired Glass Melter | 1990 | |
246 |
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Jain, Ramesh | Combustion System Requirements For Advanced Gas-Fired Processes | 1986 | |
247 |
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Jain, Ramesh | Combustion System Requirements for Advanced Technologies | 1986 | |
248 |
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Onoda, Masami; Okimori, Mayumi; Takikawa, Iemitsu; Ikezaki, Eiji; Hiramoto, Yuji | Combustion Techniques in Remote CC-HDR Process | 1991 | |
249 |
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Pan, Y. S.; Bellas, G. T.; Joubert, J. I. | Combustion Tests with Alternative Fuels in Oil-Designed Boilers | 1981 | |
250 |
|
Khinkis, Mark | Combustion With Oxygen Enriched Air | 1986 | |
251 |
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Dobos, Charles; Eustes, John | Combustion With Preheated Air Introduction | 1986 | |
252 |
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Beer, J. M.; Farmayan, W. F.; Monroe, L. S.; Srinivasachar, S.; Teare, J. D. | The Combustion, Heat Transfer, Pollutant Emission and Ash Deposition Characteristics of Concentrated Coal Water Slurries | 1983 | |
253 |
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Turan, A.; Chatwani, A. U.; Loftus, P. J.; Stickler, D. B. | Combustor Modelling - A Maturing State of the Art | 1988 | |
254 |
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| Commercial Operating Experience with the Rapid Mix Ultra Low Emission Burner | 1998 | |
255 |
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Barsin, J. A. | Commercialization of Coal-Water Slurries | 1982 | |
256 |
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Barsin, J. A. | Commercialization of Coal-Water Slurries - II | 1982 | |
257 |
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Fiveland, W. A.; Morita, Shigeki; Azuhata, Shigeru | Como a Numerical Model for Predicting Furnace Performance in Axisymmetric Geometries | 1983 | |
258 |
|
Martin, Matthew | Comparison of empirically based calculation methods for pipe flares to computational fluid dynamics | 2007 | As available computational resources increase and the use of computational fluid dynamics (CFD) becomes more widely accepted wider classes of industrial scale combustion systems are being simulated and optimized using these resources. A largebody of empirically based work has already been assembled ... |
259 |
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Hradisky, Michal | Comparison of Local and Global Combustion Efficiencies for the TCEQ 2010 Flare Study Air-Assisted Flare using High Performance Computing | 2013-09-25 | Paper from the AFRC 2013 conference titled Comparison of Local and Global Combustion Efficiencies for the TCEQ 2010 Flare Study Air-Assisted Flare using High Performance Computing by Michal Hradisky. |
260 |
|
Yousheng Zeng | Comparison of Three Methods to Monitor Flare Combustion Efficiency | 2016-09-13 | Conference paper |
261 |
|
Westbrook, Charles K. | Computation of Adiabatic Flame Temperatures and Other Thermodynamic Quantities | 1986 | |
262 |
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Duck, Brian | Computational fluid dynamic modeling of a ground flare | 2007 | A major ethylene plant underconstruction in Al-Jubail, Saudi Arabia found itself under pressure from neighboring facilities and regulatory agencies to reduce flare emissions, flame visibility, and noise. Plant personnel contacted a company that had pioneered and commercialized a grade mounted, multi... |
263 |
|
Korhonen, Sirpa; Jacobson, Tommy; Jaakelainen, Kari | Computational Fluid Dynamics Based Analysis of Bubbling Fluidised Bed Combustion | 1998 | |
264 |
|
Visser, B. M.; Weber, R. | Computations of Near Burner Zone Properties of Semi-Industrial Pulverised Coal Flames | 1989 | |
265 |
|
| Computer Modeling of a Bark Boiler | 1998 | |
266 |
|
Smith, Philip J. | Computing flame dynamics using massively parallel computers to span scales from the atomistic to the industrial | 2004 | |
267 |
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Desam, Padmabhushana R.; Smith, Philip J.; Borodai, Stainslav G.; Kumar, Seshadri | Computing flare dynamics using large eddy simulations | 2004 | Computing the dynamics of flares is motivated by the increased need for efficient and safe flaring of unwanted gases during hydrocarbon and petrochemical processing. To understand the unsteady flame shape dynamics, Large Eddy Simulations (LES) are used to study natural gas flares in the presence of ... |
268 |
|
| Conference Agenda - 1980 International Symposium Industrial Process Combustion Technology | 1980 | |
269 |
|
| Conference introduction - American Flame Research Committee International Symposium Industrial Process Combustion Technology | 1980 | |
270 |
|
Hunter, S.C. | Conference theme - October 1980 International Symposium Industrial Process Combustion Technology | 1980 | |
271 |
|
A.M. Elbaz | Conical Quarl Swirl Stabilized Non-premixed Flames: Flame and Flow Field Interaction | 2016-09-13 | Conference paper |
272 |
|
Elbaz, A.M. | Conical Quarl Swirl Stabilized Non-premixed Flames: Flame and Flow Field Interaction | 2016-09-13 | Paper from the AFRC 2016 conference titled Conical Quarl Swirl Stabilized Non-premixed Flames: Flame and Flow Field Interaction |
273 |
|
Wu, D. | Considerations when Designing an Optically Accessible High-Pressure Combustion Test Article | 2018-09-18 | Paper from the AFRC 2018 conference titled Considerations when Designing an Optically Accessible High-Pressure Combustion Test Article |
274 |
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Fischer, I.M. | Considerations When Specifying Multipoint Ground Flares | 2015-09-10 | Paper from the AFRC 2015 conference titled Consideration When Specifying Multipoint Ground Flares |
275 |
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Shareef, Gunseli Sagun; Johnson, K. L.; May, P. A.; Doerle, D. H.; Hartman, M. W. | Continuous NH3 Monitoring Probe System Prototype: Preliminary Bench-Scale Testing and Field Trials --Troubleshooting an SCR System | 1991 | |
276 |
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Smith, P.J. | Continuous Online Monitoring of Fireside Tube Skin Temperature in a Depropanizer Reboiler | 2015-09-11 | Paper from the AFRC 2015 conference titled Continuous Online Monitoring of Fireside Tube Skin Temperature in a Depropanizer Reboiler |
277 |
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Croce, Gregory P.; Patel, Rasik; Sahu, Ranajit | Control of Nitrogen Oxide Emissions in Gas-Fired Heaters -- The Retrofit Experience | 1991 | |
278 |
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Colannino, Joseph P.E. | Control of NOx Using Modified Response Surface Methodology (MRSM) | 1998 | |
279 |
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Munro, J. M.; Bradshaw, F. W.; Pershing, D. W. | Control of Pollutant Emissions from Coal and Wood Combustion in Spreader-Stoker Systems | 1982 | |
280 |
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Tillman, David A.; Leone, Ms. Catherine | Control of Trace Metals in Flyash at the Tacoma, Washington Multifuels Incinerator | 1990 | |
281 |
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Smith, Philip | Controlling Steam-Assisted Flare Operations in Light of Federal Regulations | 2013-09-25 | Paper from the AFRC 2013 conference titled Controlling Steam-Assisted Flare Operations in Light of Federal Regulations by Philip Smith |
282 |
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Reese, J.; Abele, A.; Folsom, B. | Conversion of an Oil/Gas-Fired Industrial Boiler to Fire Hogged Fuel | 1982 | |
283 |
|
Londerville, Steve; McElroy, Mike | Conversion of Tangential Fired Utility Furnaces from Oil to Gas | 2012-09-07 | |
284 |
|
Schmitt, David | Correctly modeling and calcutating combustion efficiencies in fired equipment | | Fired equipment includes furnaces, fired heaters, fired boilers, supplementary fired boilers, and many other types of equipment. But for the purposes of reviewing how the calculations are accomplished and other factors that may affect the results of the modeling, we will use a fired reformer furnace... |
285 |
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Yori, K. | Cross-Jet Mixing of Reburning Gas and Secondary Air in Municipal Waste Incinerators | 1999 | |
286 |
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Abbasi, H. A.; Khinkis, M. J.; Waibel, R. T.; Meder, S. R. | Cyclonic Combustor for Low-Btu Off-Gas Incineration | 1984 | |
287 |
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Walsh, Louise T.; Ho, Minda ; Ding, Maynard G. | Demonstrated Fuel Savings and Uniform Heating With 100% Oxygen Burners in a Continuous Steel Reheat Furnace | 1986 | |
288 |
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Cremer, M.A. | Demonstrated Implementation of Detailed Chemistry into CFD Simulations for Tailored Commercial Evaluation of Industrial Combustion Equipment | 2014-09-10 | Paper from the AFRC 2014 conference titled Demonstrated Implementation of Detailed Chemistry into CFD Simulations for Tailored Commercial Evaluation of Industrial Combustion Equipment by M. Cremer. |
289 |
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Rey-Chein, Chang ; I-Te, Hang ; Jing-Lyang, Jeng | Demonstration of a Continuous Billet Holding Furnace and Its Modelling | 1998 | |
290 |
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Sorge, J. N.; Hardman, R. R.; Wilson, S. M. | Demonstration of Advanced Wall- and Tangentially-Fired Combustion Modifications for the Reduction of Nitrogen Oxide NOx Emissions From Coal-Fired Boilers | 1991 | |
291 |
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Folsom, Dr. Blair A.; Sommer, Todd M.; Payne, Dr. Roy | Demonstration of Combined NOx and SO2 Emission Control Technologies Involving Gas Reburning | 1991 | |
292 |
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Reese, James L.; Reddy, Vikram; Lange, Howard B.; Chang, Charles; Radak, Les J.; Youssef, Cherif F. | Demonstration of Fuel Injection Recirculation FIR for NOx Emissions Control | 1994 | |
293 |
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McKittrick, Alexis | Demonstration of hydrogen use in steam- and air-assisted flares | 2009-06-09 | |
294 |
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McKittrick, Alexis | Demonstration of Hydrogen Use in Steam-and Air-Assisted Flares | 2009 | |
295 |
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Khesin, Mark; Girvan, Rob | Demonstration of New Flame Monitoring System at a Pilot Scale Gas Fired Combustion Test Facility | 1996 | |
296 |
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Bell, Ronald D. | Demonstration of Radian's Patented Hybrid Low NOx Process | 1990 | |
297 |
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Wakamura, Yasujir | Demonstration of Reburning Technology on an MSW Furnace | 1996 | |
298 |
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Sullivan, John D.; Smith, Scott H.; Webb, Andrew W. | Demonstration of Sub-9 PPM NOx Emissions Using the Radiation Stabilized Burner in an Industrial Package Boiler | 1999 | |
299 |
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Smith, D. A.; Lexa, G. F. | Dense Phase Pneumatic Transport: An Alternative for Conveying Pulverized Coal | 1982 | |
300 |
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Samson, Rene; Goudriaan, Frans; Maaskant, Onno; Gilmore, Tom | The Design & Installation of a Low Temperature Catalytic NOx Reduction System for Fired Heaters & Boilers | 1990 | |