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OLS Field Name OLS Field Data
Main Title Bench-scale process evaluation of reburning and sorbent injection for in-furnace NOx/SOx reduction /
Other Authors
Author Title of a Work
Greene, S. B.,
Chen, S.,
Clark, W. D.,
Heap, M. P.,
Pershing, D.,
Seeker, W. R.,
Publisher U.S. Environmental Protection Agency, Air and Energy Engineering Research Laboratory,
Year Published 1985
Report Number EPA/600-S7-85-012
OCLC Number 15342134
Subjects Coal-fired furnaces--Testing. ; Sulfur dioxide.
Internet Access
Description Access URL
Library Call Number Additional Info Location Last
EJBD ARCHIVE EPA 600-S7-85-012 In Binder Headquarters Library/Washington,DC 05/09/2018
EJBD  EPA 600-S7-85-012 In Binder Headquarters Library/Washington,DC 10/17/2018
EKBD  EPA-600/S7-85-012 Research Triangle Park Library/RTP, NC 10/24/2017
Collation 5 pages : illustrations ; 28 cm
Notes Caption title. At head of title: Project summary. Distributed to depository libraries in microfiche. "May 1985." "EPA/600-S7-85-012."
Contents Notes A study was initiated to investigate in-furnace NO[subscript x]/SO[subscript x] reduction techniques through the combined use of reburning and limestone injection. Reburning is a multistage combustion modification technique in which fuel is added downstream of the main firing zone to produce a fuel-rich zone where NO from the main firing zone is reduced. BUrnout air is added farther downstream to provide for complete burnout of the reburning fuel. Sorbent injection involves injection, into the furnace, of calcium-based materials onto which SO2 can be absorbed. Tests have been carried out at bench scale (20.5 kW) to investigate the impact of process variables on the effectiveness of the combined technology. Under the best conditions, up to 80% NO[subscript x] reduction and 60% removal of SO[subscript x] at a calcium/sulfur ratio of 2 have been achieved. The impact of each variable in each zone was investigated independently. The dominant parameters were found to be the reburning condition and the primary NO level. The time, temperature, and stoichiometric requirements of the reburning zone influenced NO[subscript x] reduction efficiency in a manner consistent with a kinetically controlled process; i.e., higher temperatures and longer residence times at an optimum stoichiometry of 0.9 were favorable. SO[subscript x] reduction was most influenced by the location of injection of the sorbent; in particular, injection with the burnout air was optimum.
Place Published Research Triangle Park, NC
Corporate Au Added Ent Air and Energy Engineering Research Laboratory.
PUB Date Free Form 1985
BIB Level m
Medium unmediated
Content text
Carrier volume
Cataloging Source RDA
OCLC Time Stamp 20171018051707
Language eng
SUDOCS Number EP 1.89/2:600/S 7-85-012
Origin OCLC
Type CAT
OCLC Rec Leader 03345cam 2200481Ii 45010