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OLS Field Name OLS Field Data
Main Title N20 emission from fossil fuel combusion /{Microfiche}
Author Linak, W. ; McSorley, J. ; Hall, R. ; Ryan, J. ; Srivastava, R.
CORP Author Acurex Corp., Research Triangle Park, NC. ;Arizona Univ., Tucson. Dept. of Chemical Engineering.;Environmental Protection Agency, Research Triangle Park, NC. Air and Energy Engineering Research Lab.;Department of Energy, Washington, DC.
Publisher Acurex Corp. for U.S. Environmental Protection Agency,
Year Published 1990
Report Number EPA-68-02-4701; EPA-68-02-4285; EPA/600/D-89/203
Stock Number PB90-132911
Subjects Nitrous oxide
Additional Subjects Nitrogen oxide(N2O) ; Fossil fuels ; Boilers ; Air pollution control ; Combustion products ; Concentration(Composition) ; Experimental design ; Pilot plants ; Field tests ; Sample preparation ; Containers ; Graphs(Charts) ; Sulfur dioxide ; Air pollution sampling ; Stationary sources
Holdings
Library Call Number Additional Info Location Last
Modified
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Status
NTIS  PB90-132911 Most EPA libraries have a fiche copy filed under the call number shown. Check with individual libraries about paper copy. NTIS 01/01/1988
Abstract The paper discusses on-line N2O measurements from six full-scale, coal-fired utility boilers that indicate direct N2O emissions of < 5 ppm. Laboratory and pilot-scale experiments conducted to further characterize direct N2O emissions are consistent with the field data indicating on-line N2O concentrations < 5 ppm. Further sub-scale coal experiments using air staging and natural gas reburning for NOx control show only slight increases in N2O emissions. These results question the reliability of the existing N2O data base, much of which is likely to be affected by a sampling artifact by which N2O can be produced in sample containers, awaiting analysis, through an as-yet-unknown mechanism possibly involving No, SO2, and H2O. Time resolved measurements of N2O, NO, and SO2 from combustion emissions, collected in stainless steel sample containers, show that N2O concentrations in wet samples can increase to levels greater than 100 ppm in < 24 hours. These increases are reduced (but not eliminated) in dried samples. All samples show that NO reacts (possibly forming N2O) within 4 hours. SO2 concentrations decrease with time at rates related to the sample dryness. These results suggest the need for further research to identify other direct and indirect sources of N2O.
Place Published Research Triangle Park, NC :
Supplementary Notes Sponsored in part by contract DE-AC22-87PC78850. Prepared in cooperation with Arizona Univ., Tucson. Dept. of Chemical Engineering. Sponsored by Environmental Protection Agency, Research Triangle Park, NC. Air and Energy Engineering Research Lab., and Department of Energy, Washington, DC.
PUB Date Free Form 1989.
NTIS Prices PC A03/MF A01
BIB Level m
Cataloging Source OCLC/T
OCLC Time Stamp 20001107142959
Language eng
Origin NTIS
Type MERGE
OCLC Rec Leader 00681nam 2200181Ka 45020