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Title	Field Testing and Computer Modeling of an Oxygen Combustion System at the EPA Mobile Incinerator
Creator	Ho, Min-Da ; Ding, Maynard G.
Publisher	Digitized by J. Willard Marriott Library, University of Utah
Date	1987
Spatial Coverage	presented at Palm Springs, California
Abstract	The Linde® Oxygen Combustion System has been demonstrated successfully at the EPA Denney Farm site as part of the modified EPA Mobile Incinerator. This paper describes the field testing results and computer modeling of the Linde System. The oxygen system enables the EPA unit to incinerate dioxin and PCB contaminated soil at a consistent rate of 4000 lb/hr - 200f. of the original maximum capacity. The pure oxygen combustion system improved the thermal efficiency of the incinerator by over 60f. and reduced the flue gas volume dramatically. Therefore, the dust carryover problem was mitigated. The destruction and removal efficiencies of hazardous wastes exceeded EPA requirements. The unique design of the proprietary burner allows the use of up to 100f. oxygen in place of air for incineration with improvements over conventional oxy-fuel burners. As a result, the temperature distributions in the rotary kiln are very uniform and NOx emissions are low. The oxygen combustion system, controlled by a programmable controller, provided much better response and flexibility than conventional air based systems. The system generated an extremely stable flame and responded very well to the transient conditions of the rotary kiln. Kiln puff occurrence was virtually eliminated in the operation of the Mobile Incinerator. A computer model of the incinerator was developed and used for the process design of the Linde system. The model predicted the test results reasonably well. This model can be a useful tool in the design and operation of rotary kiln incineration systems.
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/s679477b
Setname	uu_afrc
ID	4377
Reference URL	https://collections.lib.utah.edu/ark:/87278/s679477b

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Title	Page 10
Format	application/pdf
OCR Text	Show TABLE 1 EPA MOBILE INCINERATION SYSTEM OXYGEN DEMONSTRATION RESULT SUMMARY Contaminated Soil (Lb/Hr) Firing Rate (MMBTU/Hr) Kiln SCC Total Specific Fuel Use (MMBTU/Ton Soil) Pure Oxygen Input (Lb/Hr) Kiln* SCC Total Specific Oxygen Consumption (Ton 02/Ton Soil) Fuel Savings (MMBTU/Ton 02) Kiln Superficial Velocity (Ft/Sec) SCC Residence Time (sec) Quenched Gas Volume (DSCFM) AIR CASE+ 1478 4.9 3.9 8.8 11.9 8.1 2.6 3250 OXYGEN PERCENT CASE CHANGE 4000 3.9 5.4 9.3 4.7 574 o 574 0.14 50 3 . 3 3.2 2250 +6~ -61~ -59~ +21~ -31~ Note: +From Reference 2, average of four runs. Maximum throughput was 2000 lb/hr . 58~ of total oxygen entering the kiln (Equivalent to 40~ 02 Enrichment) *Calculated data - 10 -
Setname	uu_afrc
ID	4367
Reference URL	https://collections.lib.utah.edu/ark:/87278/s679477b/4367