Abstract
There is a growing concern about NO{sub x} emission from waste incineration plants. Reburning as a NO{sub x} reduction technique is best known for coal combustion, and industrial scale testing has been related to coal-fueled power plants. Recently two industrial-scale waste incinerating plants in Rochester, USA; and Malmoe, Sweden, respectively have been successfully tested. Two used techniques differ in gas injection location: either in the primary combustion zone close to gratings, or in the reburning zone above the primary combustion zone. The Herning municipal waste processing plant will be the demonstration plant for testing of both methods of reburning in order to reduce the NO{sub x} emission by 50%. Initial tests comprehend flow modelling, air distribution optimization, flue gas recirculation and gas injection, as well as heat loads and temperature profile. Specifications for nozzle dimensioning and other essential reburning installations are given. This demonstration plant is under construction by Voelund Ecology Systems and is to be implemented medio 1994. Reburning test results should be available in spring 1995. (EG)
Citation Formats
None.
Engineering report for NO{sub x} reduction by means of natural gas injection and reburning. Demonstration project in the waste-fueled power-and-heat plant at Herning; Engineering-rapport for NO{sub x}-reduktion ved naturgasinjektion og reburning; Demonstrationsprojekt paa affaldsfyret kraftvarmeanlaeg, Herning.
Denmark: N. p.,
1993.
Web.
None.
Engineering report for NO{sub x} reduction by means of natural gas injection and reburning. Demonstration project in the waste-fueled power-and-heat plant at Herning; Engineering-rapport for NO{sub x}-reduktion ved naturgasinjektion og reburning; Demonstrationsprojekt paa affaldsfyret kraftvarmeanlaeg, Herning.
Denmark.
None.
1993.
"Engineering report for NO{sub x} reduction by means of natural gas injection and reburning. Demonstration project in the waste-fueled power-and-heat plant at Herning; Engineering-rapport for NO{sub x}-reduktion ved naturgasinjektion og reburning; Demonstrationsprojekt paa affaldsfyret kraftvarmeanlaeg, Herning."
Denmark.
@misc{etde_10128492,
title = {Engineering report for NO{sub x} reduction by means of natural gas injection and reburning. Demonstration project in the waste-fueled power-and-heat plant at Herning; Engineering-rapport for NO{sub x}-reduktion ved naturgasinjektion og reburning; Demonstrationsprojekt paa affaldsfyret kraftvarmeanlaeg, Herning}
author = {None}
abstractNote = {There is a growing concern about NO{sub x} emission from waste incineration plants. Reburning as a NO{sub x} reduction technique is best known for coal combustion, and industrial scale testing has been related to coal-fueled power plants. Recently two industrial-scale waste incinerating plants in Rochester, USA; and Malmoe, Sweden, respectively have been successfully tested. Two used techniques differ in gas injection location: either in the primary combustion zone close to gratings, or in the reburning zone above the primary combustion zone. The Herning municipal waste processing plant will be the demonstration plant for testing of both methods of reburning in order to reduce the NO{sub x} emission by 50%. Initial tests comprehend flow modelling, air distribution optimization, flue gas recirculation and gas injection, as well as heat loads and temperature profile. Specifications for nozzle dimensioning and other essential reburning installations are given. This demonstration plant is under construction by Voelund Ecology Systems and is to be implemented medio 1994. Reburning test results should be available in spring 1995. (EG)}
place = {Denmark}
year = {1993}
month = {Dec}
}
title = {Engineering report for NO{sub x} reduction by means of natural gas injection and reburning. Demonstration project in the waste-fueled power-and-heat plant at Herning; Engineering-rapport for NO{sub x}-reduktion ved naturgasinjektion og reburning; Demonstrationsprojekt paa affaldsfyret kraftvarmeanlaeg, Herning}
author = {None}
abstractNote = {There is a growing concern about NO{sub x} emission from waste incineration plants. Reburning as a NO{sub x} reduction technique is best known for coal combustion, and industrial scale testing has been related to coal-fueled power plants. Recently two industrial-scale waste incinerating plants in Rochester, USA; and Malmoe, Sweden, respectively have been successfully tested. Two used techniques differ in gas injection location: either in the primary combustion zone close to gratings, or in the reburning zone above the primary combustion zone. The Herning municipal waste processing plant will be the demonstration plant for testing of both methods of reburning in order to reduce the NO{sub x} emission by 50%. Initial tests comprehend flow modelling, air distribution optimization, flue gas recirculation and gas injection, as well as heat loads and temperature profile. Specifications for nozzle dimensioning and other essential reburning installations are given. This demonstration plant is under construction by Voelund Ecology Systems and is to be implemented medio 1994. Reburning test results should be available in spring 1995. (EG)}
place = {Denmark}
year = {1993}
month = {Dec}
}