Syngas production via combined dry and steam reforming methane over Ni-based catalyst: A review

Ul Hasnain Syed Muhammad Wajahat; Salam Farooqi Ahmad; Victor Ayodele Bamidele; Abdullah Bawadi

doi:10.21741/9781644902516-3

Syngas production via combined dry and steam reforming methane over Ni-based catalyst: A review

Ul Hasnain Syed Muhammad Wajahat
, Salam Farooqi Ahmad
, Victor Ayodele Bamidele
, Abdullah Bawadi^*

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

4 Scopus citations

Abstract

Global energy consumption has eventually increased as a result of the growing world population. Various problems arise as a result. The accumulation of greenhouse gases (GHGs), which led to a shift in the world's climate, is the most problematic. Combined dry and steam reforming of methane (CDRSM) is a highly advantageous method since it uses two of the most significant GHGs, CH4 and CO2, to produce syngas, an intermediate product to produce valuable fuels. Ni-based catalysts are inexpensive, compared to many noble metals, and exhibit good reaction activity. However, deactivation, coking, and sintering of catalysts continue to be the major obstacles to commercialization. Due to better and more stable catalytic structure, which is both coke and sintering resistant at high temperatures, bimetallic catalysts have established increased activity and prolonged durability when compared to monometallic catalysts. This review highlights recent advancements in Ni-based catalysts for CDSRM by emphasizing factors such as catalyst support, bimetallic catalyst, promoters, and strong metal-support interactions (SMSI).

Original language	English
Title of host publication	Sustainable Processes and Clean Energy Transition- International Conference on Sustainable Processes and Clean Energy Transition, ICSuPCET 2022
Editors	Yeong Yin Fong, Lam Man Kee, Norwahyu Jusoh, Chong Yang Chuah
Publisher	Association of American Publishers
Pages	17-27
Number of pages	11
ISBN (Print)	9781644902509
DOIs	https://doi.org/10.21741/9781644902516-3
State	Published - 2023
Externally published	Yes
Event	International Conference on Sustainable Processes and Clean Energy Transition, ICSuPCET 2022 - Kuching, Malaysia Duration: 1 Dec 2022 → 2 Dec 2022

Publication series

Name	Materials Research Proceedings
Volume	29
ISSN (Print)	2474-3941
ISSN (Electronic)	2474-395X

Conference

Conference	International Conference on Sustainable Processes and Clean Energy Transition, ICSuPCET 2022
Country/Territory	Malaysia
City	Kuching
Period	1/12/22 → 2/12/22

Bibliographical note

Publisher Copyright:
© 2023, Association of American Publishers. All rights reserved.

Keywords

CDSRM
Catalyst Development
Ni-Based Catalysts
Syngas Production

ASJC Scopus subject areas

General Materials Science

Access to Document

10.21741/9781644902516-3

Cite this

Syed Muhammad Wajahat, U. H., Ahmad, S. F., Bamidele, V. A., & Bawadi, A. (2023). Syngas production via combined dry and steam reforming methane over Ni-based catalyst: A review. In Y. Yin Fong, L. Man Kee, N. Jusoh, & C. Y. Chuah (Eds.), Sustainable Processes and Clean Energy Transition- International Conference on Sustainable Processes and Clean Energy Transition, ICSuPCET 2022 (pp. 17-27). (Materials Research Proceedings; Vol. 29). Association of American Publishers. https://doi.org/10.21741/9781644902516-3

Syed Muhammad Wajahat, Ul Hasnain ; Ahmad, Salam Farooqi ; Bamidele, Victor Ayodele et al. / Syngas production via combined dry and steam reforming methane over Ni-based catalyst : A review. Sustainable Processes and Clean Energy Transition- International Conference on Sustainable Processes and Clean Energy Transition, ICSuPCET 2022. editor / Yeong Yin Fong ; Lam Man Kee ; Norwahyu Jusoh ; Chong Yang Chuah. Association of American Publishers, 2023. pp. 17-27 (Materials Research Proceedings).

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title = "Syngas production via combined dry and steam reforming methane over Ni-based catalyst: A review",

abstract = "Global energy consumption has eventually increased as a result of the growing world population. Various problems arise as a result. The accumulation of greenhouse gases (GHGs), which led to a shift in the world's climate, is the most problematic. Combined dry and steam reforming of methane (CDRSM) is a highly advantageous method since it uses two of the most significant GHGs, CH4 and CO2, to produce syngas, an intermediate product to produce valuable fuels. Ni-based catalysts are inexpensive, compared to many noble metals, and exhibit good reaction activity. However, deactivation, coking, and sintering of catalysts continue to be the major obstacles to commercialization. Due to better and more stable catalytic structure, which is both coke and sintering resistant at high temperatures, bimetallic catalysts have established increased activity and prolonged durability when compared to monometallic catalysts. This review highlights recent advancements in Ni-based catalysts for CDSRM by emphasizing factors such as catalyst support, bimetallic catalyst, promoters, and strong metal-support interactions (SMSI).",

keywords = "CDSRM, Catalyst Development, Ni-Based Catalysts, Syngas Production",

author = "\{Syed Muhammad Wajahat\}, \{Ul Hasnain\} and Ahmad, \{Salam Farooqi\} and Bamidele, \{Victor Ayodele\} and Abdullah Bawadi",

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year = "2023",

doi = "10.21741/9781644902516-3",

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Syed Muhammad Wajahat, UH, Ahmad, SF, Bamidele, VA & Bawadi, A 2023, Syngas production via combined dry and steam reforming methane over Ni-based catalyst: A review. in Y Yin Fong, L Man Kee, N Jusoh & CY Chuah (eds), Sustainable Processes and Clean Energy Transition- International Conference on Sustainable Processes and Clean Energy Transition, ICSuPCET 2022. Materials Research Proceedings, vol. 29, Association of American Publishers, pp. 17-27, International Conference on Sustainable Processes and Clean Energy Transition, ICSuPCET 2022, Kuching, Malaysia, 1/12/22. https://doi.org/10.21741/9781644902516-3

Syngas production via combined dry and steam reforming methane over Ni-based catalyst: A review. / Syed Muhammad Wajahat, Ul Hasnain; Ahmad, Salam Farooqi; Bamidele, Victor Ayodele et al.
Sustainable Processes and Clean Energy Transition- International Conference on Sustainable Processes and Clean Energy Transition, ICSuPCET 2022. ed. / Yeong Yin Fong; Lam Man Kee; Norwahyu Jusoh; Chong Yang Chuah. Association of American Publishers, 2023. p. 17-27 (Materials Research Proceedings; Vol. 29).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Syngas production via combined dry and steam reforming methane over Ni-based catalyst

T2 - International Conference on Sustainable Processes and Clean Energy Transition, ICSuPCET 2022

AU - Syed Muhammad Wajahat, Ul Hasnain

AU - Ahmad, Salam Farooqi

AU - Bamidele, Victor Ayodele

AU - Bawadi, Abdullah

PY - 2023

Y1 - 2023

N2 - Global energy consumption has eventually increased as a result of the growing world population. Various problems arise as a result. The accumulation of greenhouse gases (GHGs), which led to a shift in the world's climate, is the most problematic. Combined dry and steam reforming of methane (CDRSM) is a highly advantageous method since it uses two of the most significant GHGs, CH4 and CO2, to produce syngas, an intermediate product to produce valuable fuels. Ni-based catalysts are inexpensive, compared to many noble metals, and exhibit good reaction activity. However, deactivation, coking, and sintering of catalysts continue to be the major obstacles to commercialization. Due to better and more stable catalytic structure, which is both coke and sintering resistant at high temperatures, bimetallic catalysts have established increased activity and prolonged durability when compared to monometallic catalysts. This review highlights recent advancements in Ni-based catalysts for CDSRM by emphasizing factors such as catalyst support, bimetallic catalyst, promoters, and strong metal-support interactions (SMSI).

AB - Global energy consumption has eventually increased as a result of the growing world population. Various problems arise as a result. The accumulation of greenhouse gases (GHGs), which led to a shift in the world's climate, is the most problematic. Combined dry and steam reforming of methane (CDRSM) is a highly advantageous method since it uses two of the most significant GHGs, CH4 and CO2, to produce syngas, an intermediate product to produce valuable fuels. Ni-based catalysts are inexpensive, compared to many noble metals, and exhibit good reaction activity. However, deactivation, coking, and sintering of catalysts continue to be the major obstacles to commercialization. Due to better and more stable catalytic structure, which is both coke and sintering resistant at high temperatures, bimetallic catalysts have established increased activity and prolonged durability when compared to monometallic catalysts. This review highlights recent advancements in Ni-based catalysts for CDSRM by emphasizing factors such as catalyst support, bimetallic catalyst, promoters, and strong metal-support interactions (SMSI).

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KW - Ni-Based Catalysts

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M3 - Conference contribution

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SN - 9781644902509

T3 - Materials Research Proceedings

SP - 17

EP - 27

BT - Sustainable Processes and Clean Energy Transition- International Conference on Sustainable Processes and Clean Energy Transition, ICSuPCET 2022

A2 - Yin Fong, Yeong

A2 - Man Kee, Lam

A2 - Jusoh, Norwahyu

A2 - Chuah, Chong Yang

PB - Association of American Publishers

Y2 - 1 December 2022 through 2 December 2022

ER -

Syed Muhammad Wajahat UH, Ahmad SF, Bamidele VA, Bawadi A. Syngas production via combined dry and steam reforming methane over Ni-based catalyst: A review. In Yin Fong Y, Man Kee L, Jusoh N, Chuah CY, editors, Sustainable Processes and Clean Energy Transition- International Conference on Sustainable Processes and Clean Energy Transition, ICSuPCET 2022. Association of American Publishers. 2023. p. 17-27. (Materials Research Proceedings). doi: 10.21741/9781644902516-3

Syngas production via combined dry and steam reforming methane over Ni-based catalyst: A review

Abstract

Publication series

Conference

Bibliographical note

Keywords

ASJC Scopus subject areas

Access to Document

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