Microwave steam activation, an innovative pyrolysis approach to convert waste palm shell into highly microporous activated carbon
Microwave-steam activation (MSA), an innovative pyrolysis approach combining the use of microwave heating and steam activation, was investigated for its potential production of high grade activated carbon (AC) from waste palm shell (WPS) for methylene blue removal. MSA was performed via pyrolytic ca...
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my.um.eprints.231012019-11-27T01:55:35Z http://eprints.um.edu.my/23101/ Microwave steam activation, an innovative pyrolysis approach to convert waste palm shell into highly microporous activated carbon Yek, Peter Nai Yuh Liew, Rock Keey Osman, Mohammad Shahril Lee, Chern Leing Chuah, Joon Huang Park, Young-Kwon Lam, Su Shiung TK Electrical engineering. Electronics Nuclear engineering TP Chemical technology Microwave-steam activation (MSA), an innovative pyrolysis approach combining the use of microwave heating and steam activation, was investigated for its potential production of high grade activated carbon (AC) from waste palm shell (WPS) for methylene blue removal. MSA was performed via pyrolytic carbonization of WPS to produce biochar as the first step followed by steam activation of the biochar using microwave heating to form AC. Optimum yield and adsorption efficiency of methylene blue were obtained using response surface methodology involving several key process parameters. The resulting AC was characterized for its porous characteristics, surface morphology, proximate analysis and elemental compositions. MSA provided a high activation temperature above 500 °C with short process time of 15 min and rapid heating rate (≤150 °C/min). The results from optimization showed that one gram of AC produced from steam activation under 10 min of microwave heating at 550 °C can remove up to 38.5 mg of methylene blue. The AC showed a high and uniform surface porosity consisting high fixed carbon (73 wt%), micropore and BET surface area of 763.1 and 570.8 m 2 /g respectively, hence suggesting the great potential of MSA as a promising approach to produce high grade adsorbent for dye removal. © 2019 Elsevier Ltd Elsevier 2019 Article PeerReviewed Yek, Peter Nai Yuh and Liew, Rock Keey and Osman, Mohammad Shahril and Lee, Chern Leing and Chuah, Joon Huang and Park, Young-Kwon and Lam, Su Shiung (2019) Microwave steam activation, an innovative pyrolysis approach to convert waste palm shell into highly microporous activated carbon. Journal of Environmental Management, 236. pp. 245-253. ISSN 0301-4797 https://doi.org/10.1016/j.jenvman.2019.01.010 doi:10.1016/j.jenvman.2019.01.010 |
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TK Electrical engineering. Electronics Nuclear engineering TP Chemical technology Yek, Peter Nai Yuh Liew, Rock Keey Osman, Mohammad Shahril Lee, Chern Leing Chuah, Joon Huang Park, Young-Kwon Lam, Su Shiung Microwave steam activation, an innovative pyrolysis approach to convert waste palm shell into highly microporous activated carbon |
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Microwave-steam activation (MSA), an innovative pyrolysis approach combining the use of microwave heating and steam activation, was investigated for its potential production of high grade activated carbon (AC) from waste palm shell (WPS) for methylene blue removal. MSA was performed via pyrolytic carbonization of WPS to produce biochar as the first step followed by steam activation of the biochar using microwave heating to form AC. Optimum yield and adsorption efficiency of methylene blue were obtained using response surface methodology involving several key process parameters. The resulting AC was characterized for its porous characteristics, surface morphology, proximate analysis and elemental compositions. MSA provided a high activation temperature above 500 °C with short process time of 15 min and rapid heating rate (≤150 °C/min). The results from optimization showed that one gram of AC produced from steam activation under 10 min of microwave heating at 550 °C can remove up to 38.5 mg of methylene blue. The AC showed a high and uniform surface porosity consisting high fixed carbon (73 wt%), micropore and BET surface area of 763.1 and 570.8 m 2 /g respectively, hence suggesting the great potential of MSA as a promising approach to produce high grade adsorbent for dye removal. © 2019 Elsevier Ltd |
| format |
Article |
| author |
Yek, Peter Nai Yuh Liew, Rock Keey Osman, Mohammad Shahril Lee, Chern Leing Chuah, Joon Huang Park, Young-Kwon Lam, Su Shiung |
| author_facet |
Yek, Peter Nai Yuh Liew, Rock Keey Osman, Mohammad Shahril Lee, Chern Leing Chuah, Joon Huang Park, Young-Kwon Lam, Su Shiung |
| author_sort |
Yek, Peter Nai Yuh |
| title |
Microwave steam activation, an innovative pyrolysis approach to convert waste palm shell into highly microporous activated carbon |
| title_short |
Microwave steam activation, an innovative pyrolysis approach to convert waste palm shell into highly microporous activated carbon |
| title_full |
Microwave steam activation, an innovative pyrolysis approach to convert waste palm shell into highly microporous activated carbon |
| title_fullStr |
Microwave steam activation, an innovative pyrolysis approach to convert waste palm shell into highly microporous activated carbon |
| title_full_unstemmed |
Microwave steam activation, an innovative pyrolysis approach to convert waste palm shell into highly microporous activated carbon |
| title_sort |
microwave steam activation, an innovative pyrolysis approach to convert waste palm shell into highly microporous activated carbon |
| publisher |
Elsevier |
| publishDate |
2019 |
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http://eprints.um.edu.my/23101/ https://doi.org/10.1016/j.jenvman.2019.01.010 |
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1651867399878606848 |
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13.211869 |