426 - 450 of 927
Number of results to display per page
CreatorTitleDateDescription
426 Ayers, W. J. Jr.; Johnson, E. K.; Mei, J. S.; Rice, R. L.; Shang, J. Y.The Fluidized-Bed Combustion of Char1982
427 Tada, Toshiya; Yaso, Tadashi; Suyari, Mamoru; Kawabata, Hiroaki; Suzuki, TomioFluidized-bed Pyrolysis and Swirl-Flow Melting System for Municipal Solid Waste1998
428 Forced Draft Burners with Two Stage Fuel System1979
429 Chiang, Pen-Chi; You, Jiann-Hwa; Chang, Kun-Ten; Chang, Shenq-ChyiFormation and Control of PAHs and Mutagenicity of Soot Particulates from Incineration of Polystyrene1992
430 Fossil Fuel Combustion in an O2 CO2 Medium Preliminary Data From Highvale Coal1997
431 Skinner, John H.; Ondich, Gregory G.Fostering Innovative Technology Development for Superfund Sites1987
432 Fortino, R. T.; Duqum, J. N.; Petrill, E. M.Freeboard Combustion and NOx Modeling of a 6x6 Fluidized Bed Combustor1985
433 Pohl, John; Gogolek, Peter E.G.; Seebold, James G.; Schwartz, RobertFuel composition effect on flare flame inefficiency2004The effects of fuel composition on the performance of flare flames have long been known. Possibly the first performance indicator was the tendency of a fuel to smoke. Various fuel characteristics such as average molecular weight and carbon-to-hydrogen ratio were advanced to guide the design of early...
434 Bodelin, P.; Delabroy, O.; Oguro, T.; Drasek, W. Von; Joshi, M.Fuel Oil Burner Development for High Temperature Melting Applications1998
435 Amin, E. M.; Pourkashanian, Mohamed; Richardson, A. P.; Williams, Alan; Yap, L. T.; Yetter, R. A.Fuel Preheat as NOx Abatement Strategy for Oxygen Enriched Turbulent Diffusion Flames1994
436 Waibel, R.; Nickeson, D.; Radak, L.; Boyd, W.Fuel Staging Burners for NOx Control1986
437 Kelly, J. T.; Pam, R. L.; Suttman, S. T.Fuel Staging for Pulverized Coal Furnace NOx Control1982
438 Frederiksen, Richard D.; Dahm, Werner J.A.; Tryggvason, Gretar; Breen, Bernard P.; Glickert, Roger; Urich, Joseph A.; Pratapas, John M.; Serauskas, Robert V.Fuel-Lean Gas Reburn (FLGR) Technology for Achieving NOx Emissions Compliance Application to a Tangentially-Fired Boiler1998
439 Eynon, Robert T.The Fueling of US Industry Into the 21st Century1996
440 Sarv, Hamid; LaRue, Albert D.Full-Size Characterization of Low-NOx Burner Coal Nozzle Mixing Devices in a 100 MBtu/hr Research Facility1995
441 Wendt, J. O. L.; Linak, William P.; McSorley, Joseph A.Fundamental Mechanisms Governing Transients From the Batch Incineration of Liquid Wastes in Rotary Kilns1987
442 Akiyama, T.; Ichizen, K.; Yoshimura, Y.; Katsuki, M; Mizutani, Y.Fundamental Study on Non-Oxidizing Direct Heating Technology1991
443 Lighty, JoAnn S.; Silcox, Geoff D.; Britt, Robert ; Owens, Warren D.; Pershing, David W.; Cundy, Vic A.Fundamentals of Hazardous Solid Waste Incineration in a Rotary Kiln Environment1987
444 Fiveland, W. A.; Wessel, R. A.Furmo A Numerical Model for Predicting Performance of Three-Dimensional Pulverized-Fuel Fired Furnaces1985
445 Varga, Gideon M. Jr.Future Industrial Combustion a Vision of Improved Productivity and Product Quality1997
446 Varga, Gideon M.Future Industrial Combustion: A Vision and Technology Roadmap for the Combustion Community1998
447 Future Industrial Combustion: A Vision for the Combustion Community1998
448 Varga, Gideon M. Jr.Future Industrial Combustion: A Vision of Improved Productivity and Product Quality1997
449 Waterland, L. R.; Mason, H. B.; Gemmer, R. V.; Drennan, Scott A.Gas Cofiring for Performance Improvement and Emissions Reduction in Stoker Boilers1999
450 Gas Reburning and Advanced Gas Reburning for Control of NOx Emissions1997
426 - 450 of 927