Development of advanced NO[sub x] control concepts for coal-fired utility boilers
All three of the CombiNO[sub x] NO[sub x] control technologies were performed simultaneously for the first time. Tests were performed while firing coal as the primary fuel, and natural gas and coal as reburn fuels. The results for the complete CombiNO[sub x] process for coal firing and natural gas r...
| Main Authors: | , , , |
|---|---|
| Other Authors: | |
| Format: | Report |
| Language: | English |
| Published: |
Energy and Environmental Research Corporation
1992
|
| Subjects: | |
| Online Access: | https://doi.org/10.2172/7173079 https://digital.library.unt.edu/ark:/67531/metadc1444092/ |
| _version_ | 1821489905021222912 |
|---|---|
| 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 | All three of the CombiNO[sub x] NO[sub x] control technologies were performed simultaneously for the first time. Tests were performed while firing coal as the primary fuel, and natural gas and coal as reburn fuels. The results for the complete CombiNO[sub x] process for coal firing and natural gas reburning are displayed in Figure 3-1. NO/NO[sub x] measurements were taken with the new sample system. The filter and line were cleaned periodically throughout testing to avoid ash build-up; ash has also been shown to convert NO[sub 2] to NO. Reduction due to natural gas reburning was 54% with burnout air injected at a downstream location of approximately 1600[degree]F. Advanced Gas Reburning produced a 79% reduction -- although it is suspected that better reduction would have been possible if injection resolution in the furnace allowed the urea to be injected at a more optimum temperature of 1850[degree]F. The methanol injection step converted 45% of the existing NO to NO[sub 2], achieving an overall CombiNO[sub x] NO reduction of 89%. The coal reburning CombiNO[sub x] test results are displayed in Figure 3-2. Results are similar to those obtained for natural gas reburning. Reduction due to urea injection was better while reburning with coal than for natural gas, probably due to the more optimum urea injection temperature. The methanol injection step converted 40% of the NO to NO[sub 2], similar to the 45% NO conversion that occurred for natural gas reburning. An overall CombiNO[sub x] NO reduction of 93% was achieved, resulting in a final NO concentration of 61 ppM at 3% O[sub 2]. |
| format | Report |
| genre | Carbonic acid |
| genre_facet | Carbonic acid |
| id | ftunivnotexas:info:ark/67531/metadc1444092 |
| institution | Open Polar |
| language | English |
| op_collection_id | ftunivnotexas |
| op_doi | https://doi.org/10.2172/7173079 |
| op_relation | other: DE93004360 rep-no: DOE/PC/90363-T6 grantno: AC22-90PC90363 doi:10.2172/7173079 osti: 7173079 https://digital.library.unt.edu/ark:/67531/metadc1444092/ ark: ark:/67531/metadc1444092 |
| publishDate | 1992 |
| publisher | Energy and Environmental Research Corporation |
| record_format | openpolar |
| spelling | ftunivnotexas:info:ark/67531/metadc1444092 2025-01-16T21:28:31+00:00 Development of advanced NO[sub x] control concepts for coal-fired utility boilers Evans, A. Pont, J. N. England, G. Seeker, W. R. United States. Department of Energy. 1992-09-15 22 pages Text https://doi.org/10.2172/7173079 https://digital.library.unt.edu/ark:/67531/metadc1444092/ English eng Energy and Environmental Research Corporation other: DE93004360 rep-no: DOE/PC/90363-T6 grantno: AC22-90PC90363 doi:10.2172/7173079 osti: 7173079 https://digital.library.unt.edu/ark:/67531/metadc1444092/ ark: ark:/67531/metadc1444092 Fuels Urea Chemical Reactions Oxidation 01 Coal Lignite And Peat Organic Compounds Staged Combustion Document Types Oxides Amides Numerical Data Data Natural Gas Materials Chalcogenides Coal Gas Fuels Thermochemical Processes 014000* -- Coal & Peat-- Combustion Fossil Fuels 200202 -- Fossil-Fueled Power Plants-- Waste Management-- Noxious Gas & Particulate Emissions Hydroxy Compounds Fuel Gas Nitrogen Dioxide Progress Report Nitrogen Compounds Experimental Data 20 Fossil-Fueled Power Plants Information Alcohols Oxygen Compounds Nitrogen Oxides Combustion Energy Sources Carbonic Acid Derivatives Fluids Gases Organic Nitrogen Compounds Methanol Nitric Oxide Pollution Abatement Carbonaceous Materials Air Pollution Abatement Report 1992 ftunivnotexas https://doi.org/10.2172/7173079 2019-08-03T22:08:46Z All three of the CombiNO[sub x] NO[sub x] control technologies were performed simultaneously for the first time. Tests were performed while firing coal as the primary fuel, and natural gas and coal as reburn fuels. The results for the complete CombiNO[sub x] process for coal firing and natural gas reburning are displayed in Figure 3-1. NO/NO[sub x] measurements were taken with the new sample system. The filter and line were cleaned periodically throughout testing to avoid ash build-up; ash has also been shown to convert NO[sub 2] to NO. Reduction due to natural gas reburning was 54% with burnout air injected at a downstream location of approximately 1600[degree]F. Advanced Gas Reburning produced a 79% reduction -- although it is suspected that better reduction would have been possible if injection resolution in the furnace allowed the urea to be injected at a more optimum temperature of 1850[degree]F. The methanol injection step converted 45% of the existing NO to NO[sub 2], achieving an overall CombiNO[sub x] NO reduction of 89%. The coal reburning CombiNO[sub x] test results are displayed in Figure 3-2. Results are similar to those obtained for natural gas reburning. Reduction due to urea injection was better while reburning with coal than for natural gas, probably due to the more optimum urea injection temperature. The methanol injection step converted 40% of the NO to NO[sub 2], similar to the 45% NO conversion that occurred for natural gas reburning. An overall CombiNO[sub x] NO reduction of 93% was achieved, resulting in a final NO concentration of 61 ppM at 3% O[sub 2]. Report Carbonic acid University of North Texas: UNT Digital Library |
| spellingShingle | Fuels Urea Chemical Reactions Oxidation 01 Coal Lignite And Peat Organic Compounds Staged Combustion Document Types Oxides Amides Numerical Data Data Natural Gas Materials Chalcogenides Coal Gas Fuels Thermochemical Processes 014000* -- Coal & Peat-- Combustion Fossil Fuels 200202 -- Fossil-Fueled Power Plants-- Waste Management-- Noxious Gas & Particulate Emissions Hydroxy Compounds Fuel Gas Nitrogen Dioxide Progress Report Nitrogen Compounds Experimental Data 20 Fossil-Fueled Power Plants Information Alcohols Oxygen Compounds Nitrogen Oxides Combustion Energy Sources Carbonic Acid Derivatives Fluids Gases Organic Nitrogen Compounds Methanol Nitric Oxide Pollution Abatement Carbonaceous Materials Air Pollution Abatement Evans, A. Pont, J. N. England, G. Seeker, W. R. Development of advanced NO[sub x] control concepts for coal-fired utility boilers |
| title | Development of advanced NO[sub x] control concepts for coal-fired utility boilers |
| title_full | Development of advanced NO[sub x] control concepts for coal-fired utility boilers |
| title_fullStr | Development of advanced NO[sub x] control concepts for coal-fired utility boilers |
| title_full_unstemmed | Development of advanced NO[sub x] control concepts for coal-fired utility boilers |
| title_short | Development of advanced NO[sub x] control concepts for coal-fired utility boilers |
| title_sort | development of advanced no[sub x] control concepts for coal-fired utility boilers |
| topic | Fuels Urea Chemical Reactions Oxidation 01 Coal Lignite And Peat Organic Compounds Staged Combustion Document Types Oxides Amides Numerical Data Data Natural Gas Materials Chalcogenides Coal Gas Fuels Thermochemical Processes 014000* -- Coal & Peat-- Combustion Fossil Fuels 200202 -- Fossil-Fueled Power Plants-- Waste Management-- Noxious Gas & Particulate Emissions Hydroxy Compounds Fuel Gas Nitrogen Dioxide Progress Report Nitrogen Compounds Experimental Data 20 Fossil-Fueled Power Plants Information Alcohols Oxygen Compounds Nitrogen Oxides Combustion Energy Sources Carbonic Acid Derivatives Fluids Gases Organic Nitrogen Compounds Methanol Nitric Oxide Pollution Abatement Carbonaceous Materials Air Pollution Abatement |
| topic_facet | Fuels Urea Chemical Reactions Oxidation 01 Coal Lignite And Peat Organic Compounds Staged Combustion Document Types Oxides Amides Numerical Data Data Natural Gas Materials Chalcogenides Coal Gas Fuels Thermochemical Processes 014000* -- Coal & Peat-- Combustion Fossil Fuels 200202 -- Fossil-Fueled Power Plants-- Waste Management-- Noxious Gas & Particulate Emissions Hydroxy Compounds Fuel Gas Nitrogen Dioxide Progress Report Nitrogen Compounds Experimental Data 20 Fossil-Fueled Power Plants Information Alcohols Oxygen Compounds Nitrogen Oxides Combustion Energy Sources Carbonic Acid Derivatives Fluids Gases Organic Nitrogen Compounds Methanol Nitric Oxide Pollution Abatement Carbonaceous Materials Air Pollution Abatement |
| url | https://doi.org/10.2172/7173079 https://digital.library.unt.edu/ark:/67531/metadc1444092/ |