Assessment of copper-iron catalyst supported on activated carbon for low-temperature nitric oxide reduction by hydrogen
It is pertinent to assess the performance of a sustainable system that can treat nitrogen oxides (NOx) emissions from combusting biomass waste. Low-temperature selective catalytic reduction is attractive due to the longer catalyst lifetime and the possibility to use carbon-based catalysts. Hence, t...
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| Online Access: | http://ir.unimas.my/id/eprint/45935/1/Assessment%20of%20copper-iron.pdf http://ir.unimas.my/id/eprint/45935/ https://iopscience.iop.org/article/10.1088/1755-1315/765/1/012093 |
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my.unimas.ir.459352024-09-06T02:30:39Z http://ir.unimas.my/id/eprint/45935/ Assessment of copper-iron catalyst supported on activated carbon for low-temperature nitric oxide reduction by hydrogen Ibrahim, Yakub Mohamad Hardyman, Barawi McGregor, James TP Chemical technology It is pertinent to assess the performance of a sustainable system that can treat nitrogen oxides (NOx) emissions from combusting biomass waste. Low-temperature selective catalytic reduction is attractive due to the longer catalyst lifetime and the possibility to use carbon-based catalysts. Hence, this study explores this system with the utilization of: (i) a cost-effective catalyst support, i.e. activated carbon derived from abundant biomass waste; (ii) a renewable reductant, i.e. hydrogen; and (iii) Earth-abundant metal catalysts, i.e. copper and iron. The catalyst was prepared by impregnating metal oxides (Cu and Fe) over palm kernel shell activated carbon (PKS). The catalyst was characterised by hydrogen-temperature programmed reduction (H2-TPR) and nitric oxide-temperature programmed desorption (NO-TPD). H2-TPR revealed an increase in the reducibility, attributed to the synergistic effects between Cu and Fe. However, these catalyst sites favour nitrous oxide (N2O) formation as shown via NO-TPD. Meanwhile, the catalyst activity has also been investigated in a fixed-bed reactor. It showed that the 100% conversion can be achieved at 200°C, but the selectivity towards nitrogen formation is as low as 40%. Therefore, investigating the optimum design of PKSCuFe catalyst is justifiable to improve the performance of low-temperature selective catalytic reduction. IOP Publishing Ltd 2021 Article PeerReviewed text en http://ir.unimas.my/id/eprint/45935/1/Assessment%20of%20copper-iron.pdf Ibrahim, Yakub and Mohamad Hardyman, Barawi and McGregor, James (2021) Assessment of copper-iron catalyst supported on activated carbon for low-temperature nitric oxide reduction by hydrogen. IOP Conference Series: Earth and Environmental Science, 765. pp. 1-12. ISSN 1755-1315 https://iopscience.iop.org/article/10.1088/1755-1315/765/1/012093 doi:10.1088/1755-1315/765/1/012093 |
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TP Chemical technology Ibrahim, Yakub Mohamad Hardyman, Barawi McGregor, James Assessment of copper-iron catalyst supported on activated carbon for low-temperature nitric oxide reduction by hydrogen |
| description |
It is pertinent to assess the performance of a sustainable system that can treat nitrogen oxides (NOx) emissions from combusting biomass waste. Low-temperature selective catalytic reduction is attractive due to the longer catalyst lifetime and the possibility to use carbon-based
catalysts. Hence, this study explores this system with the utilization of: (i) a cost-effective catalyst support, i.e. activated carbon derived from abundant biomass waste; (ii) a renewable reductant, i.e. hydrogen; and (iii) Earth-abundant metal catalysts, i.e. copper and iron. The catalyst was prepared by impregnating metal oxides (Cu and Fe) over palm kernel shell activated carbon (PKS). The catalyst was characterised by hydrogen-temperature programmed reduction
(H2-TPR) and nitric oxide-temperature programmed desorption (NO-TPD). H2-TPR revealed an increase in the reducibility, attributed to the synergistic effects between Cu and Fe. However, these catalyst sites favour nitrous oxide (N2O) formation as shown via NO-TPD. Meanwhile, the catalyst activity has also been investigated in a fixed-bed reactor. It showed that the 100% conversion can be achieved at 200°C, but the selectivity towards nitrogen formation is as low as
40%. Therefore, investigating the optimum design of PKSCuFe catalyst is justifiable to improve the performance of low-temperature selective catalytic reduction. |
| format |
Article |
| author |
Ibrahim, Yakub Mohamad Hardyman, Barawi McGregor, James |
| author_facet |
Ibrahim, Yakub Mohamad Hardyman, Barawi McGregor, James |
| author_sort |
Ibrahim, Yakub |
| title |
Assessment of copper-iron catalyst supported on activated
carbon for low-temperature nitric oxide reduction by
hydrogen |
| title_short |
Assessment of copper-iron catalyst supported on activated
carbon for low-temperature nitric oxide reduction by
hydrogen |
| title_full |
Assessment of copper-iron catalyst supported on activated
carbon for low-temperature nitric oxide reduction by
hydrogen |
| title_fullStr |
Assessment of copper-iron catalyst supported on activated
carbon for low-temperature nitric oxide reduction by
hydrogen |
| title_full_unstemmed |
Assessment of copper-iron catalyst supported on activated
carbon for low-temperature nitric oxide reduction by
hydrogen |
| title_sort |
assessment of copper-iron catalyst supported on activated
carbon for low-temperature nitric oxide reduction by
hydrogen |
| publisher |
IOP Publishing Ltd |
| publishDate |
2021 |
| url |
http://ir.unimas.my/id/eprint/45935/1/Assessment%20of%20copper-iron.pdf http://ir.unimas.my/id/eprint/45935/ https://iopscience.iop.org/article/10.1088/1755-1315/765/1/012093 |
| _version_ |
1811600386656567296 |
| score |
13.209306 |