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A comprehensive review on the advancements in catalyst regeneration strategies for enhanced reactivity in CO methanation

Hatta, A. H. and Abdul Jalil, Aishah and Hassan, Nurul Sahida and Shahul Hamid, Muhamed Yusuf and Bahari, Mahadi B. and Ab. Aziz, Muhammad Arif and Alhassan, Mansur and Ibrahim, Naimah and Che Jusoh, Nurfatehah Wahyuny and Hairom, Nur Hanis Hayati (2023) A comprehensive review on the advancements in catalyst regeneration strategies for enhanced reactivity in CO methanation. Materials Today Chemistry, 33 (NA). NA. ISSN 2468-5194

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Official URL: http://dx.doi.org/10.1016/j.mtchem.2023.101743

Abstract

Rising energy demand worldwide has led to increased interest in renewable energy, but natural gas remains a significant indigenous energy source due to its wide use, lower carbon impact, and established infrastructure. In the creation of substituted natural gas through CO methanation, a catalyst is essential. However, maintaining the catalyst's stability requires understanding its deactivation and regeneration. Therefore, it is vital to understand the catalyst's deactivation and regeneration phenomenon for the CO methanation reaction which is the requirement for the catalyst's stability. A small number of review reports have been published on CO methanation, however, despite substantial investigation, none of them fully explain the catalyst's deactivation and regeneration. In light of these considerations, we have provided recent thorough research on the catalyst's deactivation and regeneration for CO methanation reaction. The fundamentals, kinetics, and effects of operating parameters involving temperature, pressure, and feed ratio were systematically deliberated. The major contribution of this study, which is catalyst deactivation, including carbon and coke formation, thermal degradation, metal sintering, and poisoning, as well as their regeneration method have then conversed. Lastly, a critical standpoint on the forthcoming difficulties and opportunities in CO methanation, especially in the catalyst's deactivation and regeneration field was conferred in detail.

Item Type:Article
Uncontrolled Keywords:catalyst's deactivation, catalyst's regeneration, catalyst's stability, CO methanation
Subjects:Q Science > Q Science (General)
Divisions:Chemical and Energy Engineering
ID Code:105600
Deposited By: Yanti Mohd Shah
Deposited On:06 May 2024 06:32
Last Modified:06 May 2024 06:32

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