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Valorization of biomass waste to engineered activated biochar by microwave pyrolysis: Progress, challenges, and future directions

Biomass waste represents the promising surrogate of fossil fuels for energy recovery and valorization into value-added products. Among thermochemical conversion techniques of biomass, pyrolysis appears to be most alluring owing to its low pollutant emission and diverse products formation. The curren...

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Main Authors: Foong, S.Y., Liew, R.K., Yang, Y., Cheng, Y.W., Yek, P.N.Y., Wan Mahari, W.A., Lee, X.Y., Han, C.S., Vo, D.-V.N., Van Le, Q., Aghbashlo, M., Tabatabaei, M., Sonne, C., Peng, W., Lam, S.S.
Format: Article
Published: Elsevier B.V. 2020
Online Access:https://www.scopus.com/inward/record.uri?eid=2-s2.0-85079368182&doi=10.1016%2fj.cej.2020.124401&partnerID=40&md5=3b8d3feb71bb2dd8f5fc529d249db949
http://eprints.utp.edu.my/23457/
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spelling my.utp.eprints.234572022-03-29T03:18:59Z Valorization of biomass waste to engineered activated biochar by microwave pyrolysis: Progress, challenges, and future directions Foong, S.Y. Liew, R.K. Yang, Y. Cheng, Y.W. Yek, P.N.Y. Wan Mahari, W.A. Lee, X.Y. Han, C.S. Vo, D.-V.N. Van Le, Q. Aghbashlo, M. Tabatabaei, M. Sonne, C. Peng, W. Lam, S.S. Biomass waste represents the promising surrogate of fossil fuels for energy recovery and valorization into value-added products. Among thermochemical conversion techniques of biomass, pyrolysis appears to be most alluring owing to its low pollutant emission and diverse products formation. The current pyrolysis applications for valorization of biomass waste is reviewed, covering the key concepts, pyrolysis mode, operating parameters and products. To date, existing types of pyrolysis include conventional pyrolysis (poor heat transfer due to non-selective heating), vacuum pyrolysis (lower process temperature because of vacuum), solar pyrolysis (entirely �green� with solar-powered), and a newly touted microwave pyrolysis. In microwave pyrolysis of biomass, the heat transfer is more efficient as the heat is generated within the core of material by the interaction of microwave with biomass. The plausible mechanisms of microwave heating are dipole polarization, ionic conduction and interfacial polarization. The lack of top-tier reactor design is identified as the main obstacle that impedes the commercialization of microwave pyrolysis in biomass recycling. Based on the existing works, it is surmised that microwave pyrolysis of biomass produces solid biochar as a main product. To confront the great market demand of activated biochar, it is proposed that the solid char could be upgraded into engineered activated biochar with desirable properties for wide application in pollution control, catalysis and energy storage. Hence, the production of engineered activated biochar from microwave pyrolysis process and its applications are reviewed and explicitly discussed to fill the research gap, and the key implications for future development are highlighted. © 2020 Elsevier B.V. Elsevier B.V. 2020 Article NonPeerReviewed https://www.scopus.com/inward/record.uri?eid=2-s2.0-85079368182&doi=10.1016%2fj.cej.2020.124401&partnerID=40&md5=3b8d3feb71bb2dd8f5fc529d249db949 Foong, S.Y. and Liew, R.K. and Yang, Y. and Cheng, Y.W. and Yek, P.N.Y. and Wan Mahari, W.A. and Lee, X.Y. and Han, C.S. and Vo, D.-V.N. and Van Le, Q. and Aghbashlo, M. and Tabatabaei, M. and Sonne, C. and Peng, W. and Lam, S.S. (2020) Valorization of biomass waste to engineered activated biochar by microwave pyrolysis: Progress, challenges, and future directions. Chemical Engineering Journal, 389 . http://eprints.utp.edu.my/23457/
institution Universiti Teknologi Petronas
building UTP Resource Centre
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Petronas
content_source UTP Institutional Repository
url_provider http://eprints.utp.edu.my/
description Biomass waste represents the promising surrogate of fossil fuels for energy recovery and valorization into value-added products. Among thermochemical conversion techniques of biomass, pyrolysis appears to be most alluring owing to its low pollutant emission and diverse products formation. The current pyrolysis applications for valorization of biomass waste is reviewed, covering the key concepts, pyrolysis mode, operating parameters and products. To date, existing types of pyrolysis include conventional pyrolysis (poor heat transfer due to non-selective heating), vacuum pyrolysis (lower process temperature because of vacuum), solar pyrolysis (entirely �green� with solar-powered), and a newly touted microwave pyrolysis. In microwave pyrolysis of biomass, the heat transfer is more efficient as the heat is generated within the core of material by the interaction of microwave with biomass. The plausible mechanisms of microwave heating are dipole polarization, ionic conduction and interfacial polarization. The lack of top-tier reactor design is identified as the main obstacle that impedes the commercialization of microwave pyrolysis in biomass recycling. Based on the existing works, it is surmised that microwave pyrolysis of biomass produces solid biochar as a main product. To confront the great market demand of activated biochar, it is proposed that the solid char could be upgraded into engineered activated biochar with desirable properties for wide application in pollution control, catalysis and energy storage. Hence, the production of engineered activated biochar from microwave pyrolysis process and its applications are reviewed and explicitly discussed to fill the research gap, and the key implications for future development are highlighted. © 2020 Elsevier B.V.
format Article
author Foong, S.Y.
Liew, R.K.
Yang, Y.
Cheng, Y.W.
Yek, P.N.Y.
Wan Mahari, W.A.
Lee, X.Y.
Han, C.S.
Vo, D.-V.N.
Van Le, Q.
Aghbashlo, M.
Tabatabaei, M.
Sonne, C.
Peng, W.
Lam, S.S.
spellingShingle Foong, S.Y.
Liew, R.K.
Yang, Y.
Cheng, Y.W.
Yek, P.N.Y.
Wan Mahari, W.A.
Lee, X.Y.
Han, C.S.
Vo, D.-V.N.
Van Le, Q.
Aghbashlo, M.
Tabatabaei, M.
Sonne, C.
Peng, W.
Lam, S.S.
Valorization of biomass waste to engineered activated biochar by microwave pyrolysis: Progress, challenges, and future directions
author_facet Foong, S.Y.
Liew, R.K.
Yang, Y.
Cheng, Y.W.
Yek, P.N.Y.
Wan Mahari, W.A.
Lee, X.Y.
Han, C.S.
Vo, D.-V.N.
Van Le, Q.
Aghbashlo, M.
Tabatabaei, M.
Sonne, C.
Peng, W.
Lam, S.S.
author_sort Foong, S.Y.
title Valorization of biomass waste to engineered activated biochar by microwave pyrolysis: Progress, challenges, and future directions
title_short Valorization of biomass waste to engineered activated biochar by microwave pyrolysis: Progress, challenges, and future directions
title_full Valorization of biomass waste to engineered activated biochar by microwave pyrolysis: Progress, challenges, and future directions
title_fullStr Valorization of biomass waste to engineered activated biochar by microwave pyrolysis: Progress, challenges, and future directions
title_full_unstemmed Valorization of biomass waste to engineered activated biochar by microwave pyrolysis: Progress, challenges, and future directions
title_sort valorization of biomass waste to engineered activated biochar by microwave pyrolysis: progress, challenges, and future directions
publisher Elsevier B.V.
publishDate 2020
url https://www.scopus.com/inward/record.uri?eid=2-s2.0-85079368182&doi=10.1016%2fj.cej.2020.124401&partnerID=40&md5=3b8d3feb71bb2dd8f5fc529d249db949
http://eprints.utp.edu.my/23457/
_version_ 1738656474803994624
score 13.214268

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