Development of advanced NO[sub x] control concepts for coal-fired utility boiler
Hybrid technologies for the reduction of NO[sub x] emissions from coal-fired utility boilers have shown the potential to offer greater levels of NO[sub x] control than the sum of the individual technologies, leading to more cost effective emissions control strategies. Energy and Environmental Resear...
| Main Authors: | , , , |
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| Other Authors: | |
| Format: | Report |
| Language: | English |
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Energy and Environmental Research Corporation
1993
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| Online Access: | https://doi.org/10.2172/6835525 https://digital.library.unt.edu/ark:/67531/metadc1190275/ |
| _version_ | 1821489906680070144 |
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| author | Evans, A. Pont, J. N. England, G. Seeker, W. R. |
| author2 | United States. Department of Energy. |
| author_facet | Evans, A. Pont, J. N. England, G. Seeker, W. R. |
| author_sort | Evans, A. |
| collection | University of North Texas: UNT Digital Library |
| description | Hybrid technologies for the reduction of NO[sub x] emissions from coal-fired utility boilers have shown the potential to offer greater levels of NO[sub x] control than the sum of the individual technologies, leading to more cost effective emissions control strategies. Energy and Environmental Research Corporation (EER) has developed a hybrid NO[sub x] control strategy involving two proprietary concepts which has the potential to meet the US Department of Energy's NO[sub x] reduction goal at a significant reduction in cost compared to existing technology. The process has been named CombiNO[sub x]. CombiNO[sub x] is an integration of three technologies: modified reburning, promoted selective noncatalytic reduction (SNCR) and methanol injection. These technologies are combined to achieve high levels of NO[sub x] emission reduction from coal-fired power plants equipped with S0[sub x] scrubbers. The first two steps, modified reburning and promoted SNCR are linked. It has been shown that performance of the SNCR agent is dependent upon local oxidation of CO. Reburning is used to generate the optimum amount of CO to promote the SNCR agent. Approximately 10 percent reburning is required, this represents half of that required for conventional reburning. If the reburn fuel is natural gas, the combination of reburning and SNCR may result in a significant cost savings over conventional reburning. The third step, injection of methanol into the flue gas, is used to oxidize NO to N0[sub 2] which may subsequently be removed in a wet scrubber. Pilot-scale tests performed at EER's 1 MMBtu/hr Boiler Simulation Facility (BSF) have demonstrated NO[sub x] reductions up to 92%. The program's next phase entails process scale-up to a 10 MMBtu/hr furnace also located at EER's Santa Anna test site. |
| format | Report |
| genre | Carbonic acid |
| genre_facet | Carbonic acid |
| id | ftunivnotexas:info:ark/67531/metadc1190275 |
| institution | Open Polar |
| language | English |
| op_collection_id | ftunivnotexas |
| op_doi | https://doi.org/10.2172/6835525 |
| op_relation | other: DE93013069 rep-no: DOE/PC/90363-T9 grantno: AC22-90PC90363 doi:10.2172/6835525 osti: 6835525 https://digital.library.unt.edu/ark:/67531/metadc1190275/ ark: ark:/67531/metadc1190275 |
| publishDate | 1993 |
| publisher | Energy and Environmental Research Corporation |
| record_format | openpolar |
| spelling | ftunivnotexas:info:ark/67531/metadc1190275 2025-01-16T21:28:31+00:00 Development of advanced NO[sub x] control concepts for coal-fired utility boiler Evans, A. Pont, J. N. England, G. Seeker, W. R. United States. Department of Energy. 1993-02-11 21 pages Text https://doi.org/10.2172/6835525 https://digital.library.unt.edu/ark:/67531/metadc1190275/ English eng Energy and Environmental Research Corporation other: DE93013069 rep-no: DOE/PC/90363-T9 grantno: AC22-90PC90363 doi:10.2172/6835525 osti: 6835525 https://digital.library.unt.edu/ark:/67531/metadc1190275/ ark: ark:/67531/metadc1190275 Fuels Boilers Chemical Reactions Organic Compounds Oxidation Urea Document Types Oxides Amides Air Pollution Control Power Plants Natural Gas Chalcogenides Gas Fuels 20 Fossil-Fueled Power Plants Fossil Fuels Thermal Power Plants 200202* -- Fossil-Fueled Power Plants-- Waste Management-- Noxious Gas & Particulate Emissions Hydroxy Compounds Fuel Gas Progress Report Nitrogen Compounds Control Alcohols Oxygen Compounds Nitrogen Oxides Pollution Control Energy Sources Carbonic Acid Derivatives Fluids Gases Organic Nitrogen Compounds Fossil-Fuel Power Plants Methanol Nitric Oxide Report 1993 ftunivnotexas https://doi.org/10.2172/6835525 2020-07-25T22:08:44Z Hybrid technologies for the reduction of NO[sub x] emissions from coal-fired utility boilers have shown the potential to offer greater levels of NO[sub x] control than the sum of the individual technologies, leading to more cost effective emissions control strategies. Energy and Environmental Research Corporation (EER) has developed a hybrid NO[sub x] control strategy involving two proprietary concepts which has the potential to meet the US Department of Energy's NO[sub x] reduction goal at a significant reduction in cost compared to existing technology. The process has been named CombiNO[sub x]. CombiNO[sub x] is an integration of three technologies: modified reburning, promoted selective noncatalytic reduction (SNCR) and methanol injection. These technologies are combined to achieve high levels of NO[sub x] emission reduction from coal-fired power plants equipped with S0[sub x] scrubbers. The first two steps, modified reburning and promoted SNCR are linked. It has been shown that performance of the SNCR agent is dependent upon local oxidation of CO. Reburning is used to generate the optimum amount of CO to promote the SNCR agent. Approximately 10 percent reburning is required, this represents half of that required for conventional reburning. If the reburn fuel is natural gas, the combination of reburning and SNCR may result in a significant cost savings over conventional reburning. The third step, injection of methanol into the flue gas, is used to oxidize NO to N0[sub 2] which may subsequently be removed in a wet scrubber. Pilot-scale tests performed at EER's 1 MMBtu/hr Boiler Simulation Facility (BSF) have demonstrated NO[sub x] reductions up to 92%. The program's next phase entails process scale-up to a 10 MMBtu/hr furnace also located at EER's Santa Anna test site. Report Carbonic acid University of North Texas: UNT Digital Library |
| spellingShingle | Fuels Boilers Chemical Reactions Organic Compounds Oxidation Urea Document Types Oxides Amides Air Pollution Control Power Plants Natural Gas Chalcogenides Gas Fuels 20 Fossil-Fueled Power Plants Fossil Fuels Thermal Power Plants 200202* -- Fossil-Fueled Power Plants-- Waste Management-- Noxious Gas & Particulate Emissions Hydroxy Compounds Fuel Gas Progress Report Nitrogen Compounds Control Alcohols Oxygen Compounds Nitrogen Oxides Pollution Control Energy Sources Carbonic Acid Derivatives Fluids Gases Organic Nitrogen Compounds Fossil-Fuel Power Plants Methanol Nitric Oxide Evans, A. Pont, J. N. England, G. Seeker, W. R. Development of advanced NO[sub x] control concepts for coal-fired utility boiler |
| title | Development of advanced NO[sub x] control concepts for coal-fired utility boiler |
| title_full | Development of advanced NO[sub x] control concepts for coal-fired utility boiler |
| title_fullStr | Development of advanced NO[sub x] control concepts for coal-fired utility boiler |
| title_full_unstemmed | Development of advanced NO[sub x] control concepts for coal-fired utility boiler |
| title_short | Development of advanced NO[sub x] control concepts for coal-fired utility boiler |
| title_sort | development of advanced no[sub x] control concepts for coal-fired utility boiler |
| topic | Fuels Boilers Chemical Reactions Organic Compounds Oxidation Urea Document Types Oxides Amides Air Pollution Control Power Plants Natural Gas Chalcogenides Gas Fuels 20 Fossil-Fueled Power Plants Fossil Fuels Thermal Power Plants 200202* -- Fossil-Fueled Power Plants-- Waste Management-- Noxious Gas & Particulate Emissions Hydroxy Compounds Fuel Gas Progress Report Nitrogen Compounds Control Alcohols Oxygen Compounds Nitrogen Oxides Pollution Control Energy Sources Carbonic Acid Derivatives Fluids Gases Organic Nitrogen Compounds Fossil-Fuel Power Plants Methanol Nitric Oxide |
| topic_facet | Fuels Boilers Chemical Reactions Organic Compounds Oxidation Urea Document Types Oxides Amides Air Pollution Control Power Plants Natural Gas Chalcogenides Gas Fuels 20 Fossil-Fueled Power Plants Fossil Fuels Thermal Power Plants 200202* -- Fossil-Fueled Power Plants-- Waste Management-- Noxious Gas & Particulate Emissions Hydroxy Compounds Fuel Gas Progress Report Nitrogen Compounds Control Alcohols Oxygen Compounds Nitrogen Oxides Pollution Control Energy Sources Carbonic Acid Derivatives Fluids Gases Organic Nitrogen Compounds Fossil-Fuel Power Plants Methanol Nitric Oxide |
| url | https://doi.org/10.2172/6835525 https://digital.library.unt.edu/ark:/67531/metadc1190275/ |