Absorption of poisoned hydrogen from metal hydride under CO+H2 mixture gas for the production of clean, high purity hydrogen

IF 9.7 1区环境科学与生态学 Q1 ENGINEERING, ENVIRONMENTAL

Journal of Cleaner Production Pub Date : 2022-09-10 DOI:10.1016/j.jclepro.2022.132751

Zhen Wu , Leilei Guo , Jing Yao , Pengfei Zhu , Huan Wang , Shenghui Gao , Yikun Yang , Fusheng Yang , Hongli Yan , Zaoxiao Zhang

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引用次数: 7

Abstract

The properties of metal hydride materials will be significantly degenerated by the poisoning effect of impurity gases such as CO, O₂, H₂S, etc. However, there are few reports on the poisoning kinetic model of metal hydride, which is important for the high-purity hydrogen purification and production from industry H₂-contained waste gas. Hence, in this work, a novel poisoning hydrogen absorption kinetic model for metal hydride running in the CO + H₂ mixture gas is developed, which considers the effect of poisoning on the volume growth rate of the product phase based on classical Johnson-Mehl-Avrami model. The novel model is also validated by comparison with experimental data of hydrogen absorption of LaNi_4.3Al_0.7 in a hydrogen atmosphere containing CO (∼0.1% v/v). The comparison results showed good agreement between model and experiment in the temperature range of 323–403 K. Based on experimental data and model, the reaction mechanism and rate-controlling steps of LaNi_4.3Al_0.7 hydrogenation process with 0.1%v/v CO were further uncovered.

Abstract Image

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在CO+H2混合气体下从金属氢化物中吸收有毒氢，生产清洁、高纯氢

由于CO、O2、H2S等杂质气体的中毒作用，金属氢化物材料的性能会明显退化。然而，金属氢化物中毒动力学模型的研究对工业含氢废气的高纯氢提纯和生产具有重要意义，目前文献报道较少。因此，本文在经典Johnson-Mehl-Avrami模型的基础上，建立了一种新型的金属氢化物在CO + H2混合气体中运行的中毒吸氢动力学模型，该模型考虑了中毒对产物相体积增长率的影响。通过与LaNi4.3Al0.7在含CO (~ 0.1% v/v)的氢气气氛中吸氢的实验数据对比，验证了该模型的有效性。结果表明，在323 ~ 403 K温度范围内，模型与实验结果吻合较好。基于实验数据和模型，进一步揭示了0.1%v/v CO条件下LaNi4.3Al0.7加氢过程的反应机理和控速步骤。

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来源期刊

Journal of Cleaner Production 环境科学-工程：环境

CiteScore

20.40

自引率

9.00%

发文量

4720

审稿时长

111 days

期刊介绍： The Journal of Cleaner Production is an international, transdisciplinary journal that addresses and discusses theoretical and practical Cleaner Production, Environmental, and Sustainability issues. It aims to help societies become more sustainable by focusing on the concept of 'Cleaner Production', which aims at preventing waste production and increasing efficiencies in energy, water, resources, and human capital use. The journal serves as a platform for corporations, governments, education institutions, regions, and societies to engage in discussions and research related to Cleaner Production, environmental, and sustainability practices.