Environment-friendly deoxygenation of non-edible Ceiba oil to liquid hydrocarbon biofuel: Process parameters and optimization study
Non-edible Ceiba oil has the potential to be a sustainable biofuel resource in tropical countries that can replace a portion of today's fossil fuels. Catalytic deoxygenation of the Ceiba oil (high O/C ratio) was conducted to produce hydrocarbon biofuel (high H/C ratio) over NiO-CaO5/SiO2-Al2O3...
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my.um.eprints.420752023-10-18T01:43:36Z http://eprints.um.edu.my/42075/ Environment-friendly deoxygenation of non-edible Ceiba oil to liquid hydrocarbon biofuel: Process parameters and optimization study Abdullah, Nur Hafawati Mijan, Nurul Asikin Taufiq-Yap, Yun Hin Ong, Hwai Chyuan Lee, Hwei Voon GE Environmental Sciences Non-edible Ceiba oil has the potential to be a sustainable biofuel resource in tropical countries that can replace a portion of today's fossil fuels. Catalytic deoxygenation of the Ceiba oil (high O/C ratio) was conducted to produce hydrocarbon biofuel (high H/C ratio) over NiO-CaO5/SiO2-Al2O3 catalyst with aims of high diesel selectivity and catalyst reusability. In the present study, response surface methodology (RSM) technique with Box-Behnken experimental designs (BBD) was used to evaluate and optimize liquid hydrocarbon yield by considering the following deoxygenation parameters: catalyst loading (1-9 wt. %), reaction temperature (300-380 degrees C) and reaction time (30-180 min). According to the RSM results, the maximum yield for liquid hydrocarbon n-(C-8-C-20) was found to be 77% at 340 degrees C within 105 min and 5 wt. % catalyst loading. In addition, the deoxygenation model showed that the catalyst loading-reaction time interaction has a major impact on the deoxygenation activity. Based on the product analysis, oxygenated species from Ceiba oil were successfully removed in the form of CO2/CO via decarboxylation/decarbonylation (deCOx) pathways. The NiO-CaO5/SiO2-Al2O3 catalyst rendered stable reusability for five consecutive runs with liquid hydrocarbon yield within the range of 66-75% with n-(C-15 + C-17) selectivity of 64-72%. Despite this, coke deposition was observed after several times of catalyst usage, which is due to the high deoxygenation temperature (> 300 degrees C) that resulted in unfavourable polymerization side reaction. Springer Heidelberg 2022-07 Article PeerReviewed Abdullah, Nur Hafawati and Mijan, Nurul Asikin and Taufiq-Yap, Yun Hin and Ong, Hwai Chyuan and Lee, Hwei Voon (2022) Environment-friendly deoxygenation of non-edible Ceiba oil to liquid hydrocarbon biofuel: Process parameters and optimization study. Environmental Science And Pollution Research, 29 (34, SI). pp. 51143-51152. ISSN 0944-1344, DOI https://doi.org/10.1007/s11356-022-18508-4 <https://doi.org/10.1007/s11356-022-18508-4>. 10.1007/s11356-022-18508-4 |
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GE Environmental Sciences Abdullah, Nur Hafawati Mijan, Nurul Asikin Taufiq-Yap, Yun Hin Ong, Hwai Chyuan Lee, Hwei Voon Environment-friendly deoxygenation of non-edible Ceiba oil to liquid hydrocarbon biofuel: Process parameters and optimization study |
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Non-edible Ceiba oil has the potential to be a sustainable biofuel resource in tropical countries that can replace a portion of today's fossil fuels. Catalytic deoxygenation of the Ceiba oil (high O/C ratio) was conducted to produce hydrocarbon biofuel (high H/C ratio) over NiO-CaO5/SiO2-Al2O3 catalyst with aims of high diesel selectivity and catalyst reusability. In the present study, response surface methodology (RSM) technique with Box-Behnken experimental designs (BBD) was used to evaluate and optimize liquid hydrocarbon yield by considering the following deoxygenation parameters: catalyst loading (1-9 wt. %), reaction temperature (300-380 degrees C) and reaction time (30-180 min). According to the RSM results, the maximum yield for liquid hydrocarbon n-(C-8-C-20) was found to be 77% at 340 degrees C within 105 min and 5 wt. % catalyst loading. In addition, the deoxygenation model showed that the catalyst loading-reaction time interaction has a major impact on the deoxygenation activity. Based on the product analysis, oxygenated species from Ceiba oil were successfully removed in the form of CO2/CO via decarboxylation/decarbonylation (deCOx) pathways. The NiO-CaO5/SiO2-Al2O3 catalyst rendered stable reusability for five consecutive runs with liquid hydrocarbon yield within the range of 66-75% with n-(C-15 + C-17) selectivity of 64-72%. Despite this, coke deposition was observed after several times of catalyst usage, which is due to the high deoxygenation temperature (> 300 degrees C) that resulted in unfavourable polymerization side reaction. |
| format |
Article |
| author |
Abdullah, Nur Hafawati Mijan, Nurul Asikin Taufiq-Yap, Yun Hin Ong, Hwai Chyuan Lee, Hwei Voon |
| author_facet |
Abdullah, Nur Hafawati Mijan, Nurul Asikin Taufiq-Yap, Yun Hin Ong, Hwai Chyuan Lee, Hwei Voon |
| author_sort |
Abdullah, Nur Hafawati |
| title |
Environment-friendly deoxygenation of non-edible Ceiba oil to liquid hydrocarbon biofuel: Process parameters and optimization study |
| title_short |
Environment-friendly deoxygenation of non-edible Ceiba oil to liquid hydrocarbon biofuel: Process parameters and optimization study |
| title_full |
Environment-friendly deoxygenation of non-edible Ceiba oil to liquid hydrocarbon biofuel: Process parameters and optimization study |
| title_fullStr |
Environment-friendly deoxygenation of non-edible Ceiba oil to liquid hydrocarbon biofuel: Process parameters and optimization study |
| title_full_unstemmed |
Environment-friendly deoxygenation of non-edible Ceiba oil to liquid hydrocarbon biofuel: Process parameters and optimization study |
| title_sort |
environment-friendly deoxygenation of non-edible ceiba oil to liquid hydrocarbon biofuel: process parameters and optimization study |
| publisher |
Springer Heidelberg |
| publishDate |
2022 |
| url |
http://eprints.um.edu.my/42075/ |
| _version_ |
1781704591841165312 |