Hydrogen production via CO2 reforming of CH4 over low-cost Ni/SBA-15 from silica-rich palm oil fuel ash (POFA) waste

Hydrogen production via CO2 reforming of CH4 over low-cost Ni/SBA-15 from silica-rich palm oil fuel ash (POFA) waste

H2 was produced via CO2 reforming of CH4 (CRM) using low-cost Ni/SBA-15 synthesized from palm oil fuel ash (POFA) waste as silica precursor. A series of Ni/SBA-15 were synthesized by employing different Na2SiO3-POFA/P123 mass ratios (2.0, 2.9 and 4.0) and were compared with Ni/SBA-15 prepared from c...

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Main Authors: Chi, Cheng Chong, Nornasuha, Abdullah, Syahida Nasuha, Bukhari, Nurul Aini, Razali, Lee, Peng Teh, Herma Dina, Setiabudi
Format: Article
Language:English
Published: Elsevier 2018
Subjects:
TP Chemical technology
Online Access:http://umpir.ump.edu.my/id/eprint/22357/1/Hydrogen%20production%20via%20CO2%20reforming%20of%20CH4%20over%20low1.pdf
http://umpir.ump.edu.my/id/eprint/22357/
https://doi.org/10.1016/j.ijhydene.2018.06.169
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Institution: Universiti Malaysia Pahang
Language: English
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spelling my.ump.umpir.223572018-10-09T08:54:59Z http://umpir.ump.edu.my/id/eprint/22357/ Hydrogen production via CO2 reforming of CH4 over low-cost Ni/SBA-15 from silica-rich palm oil fuel ash (POFA) waste Chi, Cheng Chong Nornasuha, Abdullah Syahida Nasuha, Bukhari Nurul Aini, Razali Lee, Peng Teh Herma Dina, Setiabudi TP Chemical technology H2 was produced via CO2 reforming of CH4 (CRM) using low-cost Ni/SBA-15 synthesized from palm oil fuel ash (POFA) waste as silica precursor. A series of Ni/SBA-15 were synthesized by employing different Na2SiO3-POFA/P123 mass ratios (2.0, 2.9 and 4.0) and were compared with Ni/SBA-15 prepared from commercial Na2SiO3 (Ni/SBA-15(Comm.)). Na2SiO3-POFA/P123 = 2.9 was found to be the optimal synthesis ratio, which produces a well-defined hexagonal framework, smaller NiO particles, stronger Ni-support interaction, homogeneous metal distribution and higher amount of basic sites. The catalytic performance complied with the trend of Ni/SBA-15(R4.0) < Ni/SBA-15(R2.0) < Ni/SBA-15(R2.9) ≈ Ni/SBA-15(Comm.), indicating the excellent catalytic activity of Ni/SBA-15(R2.9) (H2 selectivity = 87.6%). The favorable physicochemical properties of Ni/SBA-15(R2.9) ameliorated the active Ni metals stabilization over SBA-15 and boosted the catalyst's virtues towards an outstanding catalytic performance. Hence, it is affirmed that POFA with an optimal Na2SiO3-POFA/P123 ratio of 2.9 can be served as silica substitution of Ni/SBA-15 for efficient H2 production via CRM. Elsevier 2018 Article PeerReviewed pdf en http://umpir.ump.edu.my/id/eprint/22357/1/Hydrogen%20production%20via%20CO2%20reforming%20of%20CH4%20over%20low1.pdf Chi, Cheng Chong and Nornasuha, Abdullah and Syahida Nasuha, Bukhari and Nurul Aini, Razali and Lee, Peng Teh and Herma Dina, Setiabudi (2018) Hydrogen production via CO2 reforming of CH4 over low-cost Ni/SBA-15 from silica-rich palm oil fuel ash (POFA) waste. International Journal of Hydrogen Energy. ISSN 0360-3199 (In Press) https://doi.org/10.1016/j.ijhydene.2018.06.169
institution Universiti Malaysia Pahang
building UMP Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaysia Pahang
content_source UMP Institutional Repository
url_provider http://umpir.ump.edu.my/
language English
topic TP Chemical technology
spellingShingle TP Chemical technology
Chi, Cheng Chong
Nornasuha, Abdullah
Syahida Nasuha, Bukhari
Nurul Aini, Razali
Lee, Peng Teh
Herma Dina, Setiabudi
Hydrogen production via CO2 reforming of CH4 over low-cost Ni/SBA-15 from silica-rich palm oil fuel ash (POFA) waste
description H2 was produced via CO2 reforming of CH4 (CRM) using low-cost Ni/SBA-15 synthesized from palm oil fuel ash (POFA) waste as silica precursor. A series of Ni/SBA-15 were synthesized by employing different Na2SiO3-POFA/P123 mass ratios (2.0, 2.9 and 4.0) and were compared with Ni/SBA-15 prepared from commercial Na2SiO3 (Ni/SBA-15(Comm.)). Na2SiO3-POFA/P123 = 2.9 was found to be the optimal synthesis ratio, which produces a well-defined hexagonal framework, smaller NiO particles, stronger Ni-support interaction, homogeneous metal distribution and higher amount of basic sites. The catalytic performance complied with the trend of Ni/SBA-15(R4.0) < Ni/SBA-15(R2.0) < Ni/SBA-15(R2.9) ≈ Ni/SBA-15(Comm.), indicating the excellent catalytic activity of Ni/SBA-15(R2.9) (H2 selectivity = 87.6%). The favorable physicochemical properties of Ni/SBA-15(R2.9) ameliorated the active Ni metals stabilization over SBA-15 and boosted the catalyst's virtues towards an outstanding catalytic performance. Hence, it is affirmed that POFA with an optimal Na2SiO3-POFA/P123 ratio of 2.9 can be served as silica substitution of Ni/SBA-15 for efficient H2 production via CRM.
format Article
author Chi, Cheng Chong
Nornasuha, Abdullah
Syahida Nasuha, Bukhari
Nurul Aini, Razali
Lee, Peng Teh
Herma Dina, Setiabudi
author_facet Chi, Cheng Chong
Nornasuha, Abdullah
Syahida Nasuha, Bukhari
Nurul Aini, Razali
Lee, Peng Teh
Herma Dina, Setiabudi
author_sort Chi, Cheng Chong
title Hydrogen production via CO2 reforming of CH4 over low-cost Ni/SBA-15 from silica-rich palm oil fuel ash (POFA) waste
title_short Hydrogen production via CO2 reforming of CH4 over low-cost Ni/SBA-15 from silica-rich palm oil fuel ash (POFA) waste
title_full Hydrogen production via CO2 reforming of CH4 over low-cost Ni/SBA-15 from silica-rich palm oil fuel ash (POFA) waste
title_fullStr Hydrogen production via CO2 reforming of CH4 over low-cost Ni/SBA-15 from silica-rich palm oil fuel ash (POFA) waste
title_full_unstemmed Hydrogen production via CO2 reforming of CH4 over low-cost Ni/SBA-15 from silica-rich palm oil fuel ash (POFA) waste
title_sort hydrogen production via co2 reforming of ch4 over low-cost ni/sba-15 from silica-rich palm oil fuel ash (pofa) waste
publisher Elsevier
publishDate 2018
url http://umpir.ump.edu.my/id/eprint/22357/1/Hydrogen%20production%20via%20CO2%20reforming%20of%20CH4%20over%20low1.pdf
http://umpir.ump.edu.my/id/eprint/22357/
https://doi.org/10.1016/j.ijhydene.2018.06.169
_version_ 1643669361210163200

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