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Title	Development of the Advanced LIDS System as an Integral Part of the Babcock & Wilcox Low Emission Boiler System
Creator	Madden, Debi A.; Farthing, George A.; Gohara, W. F.
Publisher	Digitized by J. Willard Marriott Library, University of Utah
Date	1994
Spatial Coverage	presented at Maui, Hawaii
Abstract	Babcock & Wilcox (B&W) is currently developing an emissions control system capable of reducing SOx emissions to one-third of that allowed under the current New Source Performance Standards (NSPS) and particulate emissions to one-half of the NSPS while addressing the concerns of solid waste generation and air toxics regulation. The work is being performed as an integral part of S&W's development of an advanced low-emission boiler system in a project entitled "Engineering Development of Advanced Coal-Fired Low Emission Boiler Systems (LESS)." The program is sponsored by the U.S. Department of Energy's Pittsburgh Energy Technology Center (DOE - PETC). The overall goal of the DOE's program is to dramatically improve environmental performance and thermal efficiency of conventional, Rankine cycle, coal-fired power plants. The initial phase of the LESS multi-phase project required a thorough review and assessment of potential advanced technologies and techniques for control of power plant emissions. For the control of SOx and particulate emissions, numerous near-term advanced flue gas cleanup options were assessed and evaluated. On the basis of these results and other qualitative considerations, the S&W Limestone Injection With Dry Scrubbing (LIDSTM) process was selected for further development and evaluation in B&W's LEBS project. The B&W LIDS process is a limestone-based furnace injection/dry scrubbing S02 removal process. The process comprises the cost-effective integration of three commercially-proven flue gas cleanup technologies: furnace limestone injection, dry scrubbing, and pulse-jet fabric filtration. This paper describes the results of the B&W LIDS process development and evaluation. Highlights include: • Results of pilot-scale testing performed to demonstrate the feasibility of achieving the B&W LESS project S02 removal goal of 97% and particulate emissions goal of less than 0.015 Ib/106 Stu with a fully-integrated LIDS process under cost-effective operating conditions. • Mercury removal data. Mercury emissions from coal-fired power plants are a matter of intense debate. It seems likely that mercury emissions will be regulated in some manner in the latter half of the decade. • Relative boiler flue-gas S03 removal information. There is evidence that the injection of a calcium-based sorbent into the upper furnace of a boiler effectively removes S03 from the boiler flue gases. If true, there is the potential to reduce air heater flue gas exit temperature below current standards due to the elimination of acid condensation concerns - therefore improving boiler thermal efficiency. • Results of a LIDS solid by-product engineering study on disposal characteristics and possible utilization specifications. B&W is aggressively pursuing ways to reduce or utilize the solid waste produced by its various FGD processes - including the LIDS process - through a variety of development programs.
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Format	application/pdf
Language	eng
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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/s6862k0v
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ID	8186
Reference URL	https://collections.lib.utah.edu/ark:/87278/s6862k0v

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Title	Page 17
Format	application/pdf
OCR Text	Show 16 PHASE I LIDS CONCLUSIONS Highlights of the Phase I LIDS RD&T results obtained in support of the B&W LEBS were as follows: • The feasibility of achieving the project S02 removal goal of 97% with the fully-integrated LIDS system was demonstrated. • LIDS total mercury capture was shown to be 97%. • Evidence was found that virtually all of the S03 in the boiler flue gas can be removed by injection of limestone in the furnace/convection pass. Boiler combustion air preheater flue gas exit temperature can thus be reduced, improving the thermal efficiency of the B&W LEBS. • The LIDS solid by-product was found to be environmentally benign for disposal and potential utilization strategies were identified. ACKNOWLEDGMENT The authors express their thanks to the U.S. Department of Energy (PETC) for supporting the B&W Low Emissions Boiler System (LEBS) development (Contrad NumberDE-AC22-92PC92160). The assistance of Tony Mayne as technical monitor is appreciated. REFERENCES 1. Ruth, L. A., Ramezan, M., and Ward, J. H., "Combustion 2000 Program to Develop Coal Plant Technology," Power Engineering, April 1993, pp. 28-32. 2. Tregoe, K., The Rational Manager, Kepner-Tregoe Inc., New York, New York, 1976. 3. Gorrell, R. L., Rodgers, L W., and Farthing, G. A., "System Analysis and Selection for an Advanced Low-Emission Coal-Fired Boiler," Presented at the International Joint Power Generation Conference, Kansas City, Missouri, October 17-21, 1993. 4. Bloom, N. S., and Prestbo, E. M., "Mercury Species Sample Collection in Flue Gas Using KCI/ Soda Lime and Iodated Carbon Solid SorbentTraps", Frontier Geosciences, Inc., September 9,1993. 5. Moore, T., "Hazardous Air Pollutants: Measuring in Micrograms," EPRI Journal, January/ February 1994. 6. IICaicium Sorbent Injection Found to Reduce Dioxin and Furan Formation," The Air Pollution Consultant, July/August 1994. 7. Hjalmarsson, A. K., Interactions in Emissions Control for Coal-Fired Plants, IEACRl47, lEA Coal Research, London, March 1992, p. 55.
Setname	uu_afrc
ID	8185
Reference URL	https://collections.lib.utah.edu/ark:/87278/s6862k0v/8185