Main Title |
Photochemical study of NOx removal from stack gases / |
Author |
Richards, John R. ;
Fox, Donald L.
|
Other Authors |
|
CORP Author |
North Carolina Univ. at Chapel Hill. School of Public Health.;Industrial Environmental Research Lab., Research Triangle Park, NC. |
Publisher |
U.S. Environmental Protection Agency, Office of Research and Development, |
Year Published |
1980 |
Report Number |
EPA-600/7-80-038; EPA-R-804740 |
Stock Number |
PB80-181274 |
OCLC Number |
54101525 |
Subjects |
Flue gases--Purification--Research
|
Additional Subjects |
Air pollution control ;
Nitrogen oxides ;
Photochemical reactions ;
Flue gases ;
Feasibility ;
Industrial wastes ;
Combustion products ;
Boilers ;
Oxidation
|
Internet Access |
|
Holdings |
Library |
Call Number |
Additional Info |
Location |
Last Modified |
Checkout Status |
EJBD |
EPA 600-7-80-038 |
|
Headquarters Library/Washington,DC |
04/27/2016 |
EKBD |
EPA-600/7-80-038 |
|
Research Triangle Park Library/RTP, NC |
01/30/2004 |
ELBD ARCHIVE |
EPA 600-7-80-038 |
Received from HQ |
AWBERC Library/Cincinnati,OH |
10/04/2023 |
ERAD |
EPA 600/7-80-038 |
|
Region 9 Library/San Francisco,CA |
02/19/2013 |
NTIS |
PB80-181274 |
Some EPA libraries have a fiche copy filed under the call number shown. |
|
07/26/2022 |
|
Collation |
xi, 189 p. : ill., charts, photos. ; 28 cm. |
Abstract |
The report gives results of an evaluation of the technical feasibility of a photochemical pretreatment system for NOx control at coal-fired boilers. The approach utilizes reaction mechanisms similar to those responsible for photochemical oxidant incidents. The reactions are initiated under controlled conditions while the pollutants are at high concentration and while the reaction products can be removed. Results indicate that, under time- and light-limited conditions, it is possible to quench the photochemical reactions at the NO2 peak and prior to the formation of ozone, aerosols, and other secondary products. Photochemical oxidation of NO was insensitive to SO2 concentration and CO2 concentration. The photochemical system appears compatible with conditions resulting from combustion modifications to suppress NOx generation. |
Notes |
Project Officer: Joseph A. McSorley. University of North Carolina, School of Public Health "March 1980." Includes bibliographical references (p. 126-129). "EPA-600/7-80-038." |
Contents Notes |
The report gives results of an evaluation of the technical feasibility of a photochemical pretreatment system for NOx control at coal-fired boilers. The approach utilizes reaction mechanisms similar to those responsible for photochemical oxidant incidents. The reactions are initiated under controlled conditions while the pollutants are at high concentration and while the reaction products can be removed. Results indicate that, under time- and light-limited conditions, it is possible to quench the photochemical reactions at the NO2 peak and prior to the formation of ozone, aerosols, and other secondary products. Photochemical oxidation of NO was insensitive to SO2 concentration and CO2 concentration. The photochemical system appears compatible with conditions resulting from combustion modifications to suppress NOx generation. |
Place Published |
Washington, D.C. |
Access Notes |
Also available via the World Wide Web |
Corporate Au Added Ent |
United States. Environmental Protection Agency.; United States. Environmental Protection Agency. Office of Research and Development.; Industrial Environmental Research Laboratory (Research Triangle Park, N.C.). Office of Environmental Engineering and Technology.; University of North Carolina at Chapel Hill. School of Public Health. |
Corp Au Ser Add Ent |
United States. Environmental Protection Agency. Interagency energy-environment research and development program report ; EPA-600/7-80-038. |
PUB Date Free Form |
1980 |
Series Title Untraced |
Interagency energy-environment research and development program report ; EPA-600/7-80-038 |
NTIS Prices |
PC A10/MF A01 |
BIB Level |
m |
Cataloging Source |
OCLC/T |
OCLC Time Stamp |
20140417143116 |
Language |
eng |
Origin |
OCLC |
Type |
MERGE |
OCLC Rec Leader |
02710cam 2200397Ka 45020 |