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Title	Emission Reduction From Waste Combustors Using Natural Gas
Creator	Linz, David G.; Seeker, W. R.
Publisher	University of Utah
Date	1987
Spatial Coverage	presented at Palm Springs, California
Abstract	The current situation in waste combustion is one of large projected growth in an environment of escalating regulatory requirements. The use of a non-polluting auxiliary fuel such as natural gas to address some of the complex combustion technical questions has never been systematically investigated. GRI has expanded its program on gas technologies for emissions control from utility power boilers to investigate gas firing techniques in mass burn, RDF, and other waste combustion equipment. The benefits expected from the implementation of these techniques include improved combustion efficiency, reduced organic emissions, reduced NOx emissions, lower cost control technology alternatives, and potentially other operating benefits. Work which has begun on NOx and trace organic control from a mass burn incinerator, and work planned on RDF-gas cofiring for organic emission control will be described.
Type	Text
Format	application/pdf
Language	eng
Rights	This material may be protected by copyright. Permission required for use in any form. For further information please contact the American Flame Research Committee.
Conversion Specifications	Original scanned with Canon EOS-1Ds Mark II, 16.7 megapixel digital camera and saved as 400 ppi uncompressed TIFF, 16 bit depth.
Scanning Technician	Cliodhna Davis
ARK	ark:/87278/s6qc063n
Setname	uu_afrc
ID	4471
Reference URL	https://collections.lib.utah.edu/ark:/87278/s6qc063n

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Title	Page 24
Format	application/pdf
OCR Text	Show ./ ./ This study should provide an evaluation of this advanced firing concept. It should also provide significant new insight into the interaction of auxiliary flame gases with furnace gases in MSW combustion systems with regards to pollution forma~ion and furnace operation. 7.0 Conclusions GRI has initiated an ambitious program designed to supply the necessary research that wi 11 1 ead to gas fi red technologies for improving the performance of waste combustion syst~ms. The implementation of these technologies is expected to address many of the limitations of waste combustion systems that are impeding the wider use of thermal destruction for the management of all types of waste streams. The initial focus of the GRI program is on municipal solid waste streams due to rapid growth of this field but will eventually extend to all waste streams where natural gas can have a significant role. 8.0 References 1. Lee, J. W., T. H. Backhouse, R. W. Ross and L. R. Waterland. "PCB Trial Burn Report for the U.S. EPA Combustion Research Facility Liquid Injecti on Incinerator System", EPA/600/S2-87 1051, 1987. 2. Trenholm, A. and P. Gorman. "Emission Test Results for a Hazardous Waste incinerator RIA", Proceedings of the Ninth Annual Research Symposium, p. 160, EPA-600/9-84-015, 1984. 3. Castaldini, C., H. Mason, R. DeRosier and S. Unnasch. "Field Tests of Industrial Boilers Cofiring Hazardous Wastes", Proceedings of the Tenth Annual Research Symposium, p. 57, EPA-600/9-84-022, 1984. 4. Adams, R., M. Hartman and D. Wagoner. "Field Tests of Industrial Boilers and Industrial Proceeds Disposing of Hazardous Wastes", Proceedings of the Tenth Annual Research Symposium, p. 62, EPA-600/9-84-022, 1984. 23
Setname	uu_afrc
ID	4469
Reference URL	https://collections.lib.utah.edu/ark:/87278/s6qc063n/4469