Unveiling a Recycling-Sourced Mineral-Biocellulose Fibre Composite for Use in Combustion-Generated NOx Mitigation Forming Plant Nutrient: Meeting Sustainability Development Goals in the Circular Economy
Аутори
Gane, PatrickDimić-Misić, Katarina
Barać, Nemanja
Imani, Monireh
Janaćković, Đorđe
Uskoković, Petar
Barcelo, Ernest
Чланак у часопису (Објављена верзија)
Метаподаци
Приказ свих података о документуАпстракт
Featured Application Surface flow filter for sorption of NOx in city/industrial pollution and conversion into a plant nutrient. Abstract NOx is unavoidably emitted during combustion in air at high temperature and/or pressure, which, if exceeding recommended levels, has a negative impact on the population. The authors found that when moist, limestone (CaCO3) readily sorbs NO2 to form calcium nitrate, which provides the basis for developing a surface flow filter. The substrate was made from "over-recycled" cellulose fibres such as newsprint, magazines, or packaging fibre, which are too weak to be used in further recycling. The substrate was specially-coated with fine-ground calcium carbonate and micro-nano-fibrillated cellulose, which was used as a binder and essential humectant to avoid formation of a stagnant air layer. Pre-oxidation countered the action of denitrification bacteria colonising the cellulose substrate. The by-product CO2 produced in situ during carbonate to nitrate conve...rsion was adsorbed by perlite, which is an inert high surface-area additive. After use, the nitrate-rich CaCO3-cellulose-based filter was proposed to be mulched into a run-off resistant soil fertiliser and micronutrient suitable, e.g., for renewable forestry within the circular economy. Belgrade, Serbia, which is a highly polluted city, was used as a laboratory test bed, and NO2 was successfully removed from an inlet of city air. A construct of street-side self-draughting or municipal/commercial transport vehicle-exterior motion-draught filter boxes is discussed.
Кључне речи:
NOx sorption / gaseous pollution mitigation / cellulose circular economy / micro-nano-fibrillated cellulose humectant / sustainable energy solutions / zero carbon transport / zero carbon combustion systemsИзвор:
Applied Sciences-Basel, 2020, 10, 11Издавач:
- MDPI, Basel
Финансирање / пројекти:
- Omya International AG, Group Sustainability
DOI: 10.3390/app10113927
ISSN: 2076-3417
WoS: 000543385900264
Scopus: 2-s2.0-85087012875
Колекције
Институција/група
Tehnološko-metalurški fakultetTY - JOUR AU - Gane, Patrick AU - Dimić-Misić, Katarina AU - Barać, Nemanja AU - Imani, Monireh AU - Janaćković, Đorđe AU - Uskoković, Petar AU - Barcelo, Ernest PY - 2020 UR - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/4529 AB - Featured Application Surface flow filter for sorption of NOx in city/industrial pollution and conversion into a plant nutrient. Abstract NOx is unavoidably emitted during combustion in air at high temperature and/or pressure, which, if exceeding recommended levels, has a negative impact on the population. The authors found that when moist, limestone (CaCO3) readily sorbs NO2 to form calcium nitrate, which provides the basis for developing a surface flow filter. The substrate was made from "over-recycled" cellulose fibres such as newsprint, magazines, or packaging fibre, which are too weak to be used in further recycling. The substrate was specially-coated with fine-ground calcium carbonate and micro-nano-fibrillated cellulose, which was used as a binder and essential humectant to avoid formation of a stagnant air layer. Pre-oxidation countered the action of denitrification bacteria colonising the cellulose substrate. The by-product CO2 produced in situ during carbonate to nitrate conversion was adsorbed by perlite, which is an inert high surface-area additive. After use, the nitrate-rich CaCO3-cellulose-based filter was proposed to be mulched into a run-off resistant soil fertiliser and micronutrient suitable, e.g., for renewable forestry within the circular economy. Belgrade, Serbia, which is a highly polluted city, was used as a laboratory test bed, and NO2 was successfully removed from an inlet of city air. A construct of street-side self-draughting or municipal/commercial transport vehicle-exterior motion-draught filter boxes is discussed. PB - MDPI, Basel T2 - Applied Sciences-Basel T1 - Unveiling a Recycling-Sourced Mineral-Biocellulose Fibre Composite for Use in Combustion-Generated NOx Mitigation Forming Plant Nutrient: Meeting Sustainability Development Goals in the Circular Economy IS - 11 VL - 10 DO - 10.3390/app10113927 ER -
@article{ author = "Gane, Patrick and Dimić-Misić, Katarina and Barać, Nemanja and Imani, Monireh and Janaćković, Đorđe and Uskoković, Petar and Barcelo, Ernest", year = "2020", abstract = "Featured Application Surface flow filter for sorption of NOx in city/industrial pollution and conversion into a plant nutrient. Abstract NOx is unavoidably emitted during combustion in air at high temperature and/or pressure, which, if exceeding recommended levels, has a negative impact on the population. The authors found that when moist, limestone (CaCO3) readily sorbs NO2 to form calcium nitrate, which provides the basis for developing a surface flow filter. The substrate was made from "over-recycled" cellulose fibres such as newsprint, magazines, or packaging fibre, which are too weak to be used in further recycling. The substrate was specially-coated with fine-ground calcium carbonate and micro-nano-fibrillated cellulose, which was used as a binder and essential humectant to avoid formation of a stagnant air layer. Pre-oxidation countered the action of denitrification bacteria colonising the cellulose substrate. The by-product CO2 produced in situ during carbonate to nitrate conversion was adsorbed by perlite, which is an inert high surface-area additive. After use, the nitrate-rich CaCO3-cellulose-based filter was proposed to be mulched into a run-off resistant soil fertiliser and micronutrient suitable, e.g., for renewable forestry within the circular economy. Belgrade, Serbia, which is a highly polluted city, was used as a laboratory test bed, and NO2 was successfully removed from an inlet of city air. A construct of street-side self-draughting or municipal/commercial transport vehicle-exterior motion-draught filter boxes is discussed.", publisher = "MDPI, Basel", journal = "Applied Sciences-Basel", title = "Unveiling a Recycling-Sourced Mineral-Biocellulose Fibre Composite for Use in Combustion-Generated NOx Mitigation Forming Plant Nutrient: Meeting Sustainability Development Goals in the Circular Economy", number = "11", volume = "10", doi = "10.3390/app10113927" }
Gane, P., Dimić-Misić, K., Barać, N., Imani, M., Janaćković, Đ., Uskoković, P.,& Barcelo, E.. (2020). Unveiling a Recycling-Sourced Mineral-Biocellulose Fibre Composite for Use in Combustion-Generated NOx Mitigation Forming Plant Nutrient: Meeting Sustainability Development Goals in the Circular Economy. in Applied Sciences-Basel MDPI, Basel., 10(11). https://doi.org/10.3390/app10113927
Gane P, Dimić-Misić K, Barać N, Imani M, Janaćković Đ, Uskoković P, Barcelo E. Unveiling a Recycling-Sourced Mineral-Biocellulose Fibre Composite for Use in Combustion-Generated NOx Mitigation Forming Plant Nutrient: Meeting Sustainability Development Goals in the Circular Economy. in Applied Sciences-Basel. 2020;10(11). doi:10.3390/app10113927 .
Gane, Patrick, Dimić-Misić, Katarina, Barać, Nemanja, Imani, Monireh, Janaćković, Đorđe, Uskoković, Petar, Barcelo, Ernest, "Unveiling a Recycling-Sourced Mineral-Biocellulose Fibre Composite for Use in Combustion-Generated NOx Mitigation Forming Plant Nutrient: Meeting Sustainability Development Goals in the Circular Economy" in Applied Sciences-Basel, 10, no. 11 (2020), https://doi.org/10.3390/app10113927 . .