Syntheses, catalytic performances and DFT investigations: A recent review of copper-based catalysts of methanol steam reforming for hydrogen production

IF 9 1区工程技术 Q1 ENERGY & FUELS

Energy Pub Date : 2024-03-25 DOI:10.1016/j.energy.2024.131091

Xincheng Tang , Yanxiao Wu , Zhenchang Fang , Xinyu Dong , Zhongxuan Du , Bicai Deng , Chunhua Sun , Feng Zhou , Xinqi Qiao , Xinling Li

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Abstract

Copper-based catalysts have demonstrated notable efficacy in facilitating methanol conversion and hydrogen yield at low temperatures. Given the straightforward and cost-effective nature of the process, further investigation into this area is merited. This article provides a summary of the progress made in the development of copper-based catalysts for hydrogen production through methanol steam reforming. The catalytic performance of conventional Cu/ZnO/Al₂O₃ catalysts can be exceeded by utilizing specific catalyst formulations and preparation procedures, which are characterized by their intricate structural and chemical properties. The studies about MSR mechanism have also been integrated. The realm of DFT research encompasses an examination of the monatomic systems, which have garnered significant attention in contemporary times. Furthermore, this paper presented potential avenues for future research on copper-based catalysts in the context of MSR. We believe that the forthcoming research will concentrate on the design, preparation, and molecular mechanism of copper-based catalysts that exhibit high stability, high activity, and low CO selectivity.

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合成、催化性能和 DFT 研究：甲醇蒸汽转化制氢铜基催化剂最新综述

铜基催化剂在低温条件下促进甲醇转化和氢气产生方面具有显著功效。考虑到该工艺的直接性和成本效益，有必要对该领域进行进一步研究。本文概述了在开发用于甲醇蒸汽转化制氢的铜基催化剂方面取得的进展。通过使用特定的催化剂配方和制备程序，传统 Cu/ZnO/Al2O3 催化剂的催化性能可以得到超越。有关 MSR 机理的研究也已纳入其中。DFT 研究领域包括对单原子系统的研究，这在当代已引起了极大的关注。此外，本文还介绍了未来在 MSR 背景下研究铜基催化剂的潜在途径。我们相信，即将开展的研究将集中在铜基催化剂的设计、制备和分子机理方面，这些催化剂将表现出高稳定性、高活性和低 CO 选择性。

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来源期刊

Energy 工程技术-能源与燃料

CiteScore

15.30

自引率

14.40%

发文量

审稿时长

14.2 weeks

期刊介绍： Energy is a multidisciplinary, international journal that publishes research and analysis in the field of energy engineering. Our aim is to become a leading peer-reviewed platform and a trusted source of information for energy-related topics. The journal covers a range of areas including mechanical engineering, thermal sciences, and energy analysis. We are particularly interested in research on energy modelling, prediction, integrated energy systems, planning, and management. Additionally, we welcome papers on energy conservation, efficiency, biomass and bioenergy, renewable energy, electricity supply and demand, energy storage, buildings, and economic and policy issues. These topics should align with our broader multidisciplinary focus.