Main Title |
Laboratory evaluation of NOx reduction techniques for refinery CO boilers / |
Author |
Lange, H. B. ;
Arand, J. K. ;
Mansour, M. N. ;
Hunter, S. C.
|
Other Authors |
|
CORP Author |
KVB, Inc., Irvine, CA.;Environmental Protection Agency, Research Triangle Park, NC. Air and Energy Engineering Research Lab. |
Publisher |
GPO, |
Year Published |
1985 |
Report Number |
EPA/600/7-85/017; KVB72-806034-1948; EPA-68-02-3690 |
Stock Number |
PB85-200285 |
Subjects |
Nitrogen oxides--Environmental aspects--United States ;
Boilers ;
Stoichiometry ;
Carbon monoxide--Environmental aspects--United States
|
Additional Subjects |
Air pollution control ;
Burners ;
Carbon monoxide ;
Nitrogen oxides ;
Refineries ;
Experimental design ;
Design criteria ;
Performance evaluation ;
Industrial wastes ;
Combustion products ;
Stoichiometry ;
Combustion modification
|
Holdings |
Library |
Call Number |
Additional Info |
Location |
Last Modified |
Checkout Status |
NTIS |
PB85-200285 |
Some EPA libraries have a fiche copy filed under the call number shown. |
|
07/26/2022 |
|
Collation |
81 pages : illustrations |
Abstract |
The report describes a laboratory test program to investigate NOx emissions from refinery CO boilers. The program had three major objectives: (1) to simulate in the laboratory a full-scale refinery CO boiler, (2) to investigate the effects of operational variables on NOx formation in the boiler furnace, and (3) to evaluate combustion modification techniques to reduce the NOx emissions. The laboratory model was shown to accurately represent combustion and NOx formation processes occurring in the full-scale boiler by comparing combustion products analyses over a range of operating conditions. The most significant operating variables influencing NOx formation in the CO boiler were found to be the ammonia level in the CO-gas and the burner stoichiometry. NOx reduction methods that were tested included combustion air staging, staged admission of fuel, fuel injection in the CO-gas, redesign of the fuel injectors, and burner throat redesign. The most effective NOx reduction technique was found to be combustion air staging. NOx formation in the CO boiler was reduced to zero (NOx emission equivalent to NOx entering with CO-gas) in the laboratory while maintaining acceptable (<200 ppm) CO levels in the stack gas. While zero NOx formation will probably not be achievable in the field, substantial NOx reductions should be achievable under practical operating conditions. |
Notes |
"Final report 3-12/83." "April 1985." "EPA/600/7-85/017." "Performing organization report no. KVB72-806034-1948 D245 EPA." "Contract/Grant no. 68-02-3690." Microfiche. |