可通过层间阴离子交换调节的分层 α-Ni(OH)2 协同 H2O2 降解羟丙基瓜尔胶

IF 8.6 2区 工程技术 Q1 ENERGY & FUELS Sustainable Materials and Technologies Pub Date : 2024-08-06 DOI:10.1016/j.susmat.2024.e01075
Huohai Yang , Jia Deng , Renze Li , Ruiyang Zhang , Xinrui Tang , Yuhang Chen
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引用次数: 0

摘要

油气生产的水力压裂过程会产生大量废水,光催化因其低成本和高效率而成为处理压裂回流液的一种潜在方法。本研究利用水热法合成了具有可控微观结构的层状α-Ni(OH),通过取代不同的镍源,包括层间的Cl、SO、OAc和NO离子,重点研究了压裂液的主要成分羟丙基胍胶的光催化降解。结果表明,在最佳实验条件下,α-Ni(OH)/OAc 表现出最有效的光催化活性。通过循环研究证实了催化剂的稳定性。根据 DFT 吸附能计算和捕获测试,假设了可能的降解机制。现场应用的性能表明,这项工作为压裂液的光催化降解提供了新的视角。
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Hierarchical α-Ni(OH)2 with tunable by interlayer anion exchange for degradation of hydroxypropyl guar gum synergistic H2O2

Hydraulic fracturing for oil and gas production generates a substantial amount of wastewater, and photocatalysis is a potential method for treating fracture flowback fluids due to its low cost and efficiency. This study utilized the hydrothermal method to synthesize layered α-Ni(OH)2 with a controllable microstructure by substituting various nickel sources, including Cl, SO42−, OAc, and NO3 interlayer ions, to focus on the photocatalytic degradation of hydroxypropyl guanidine gum, the primary constituent of fracturing fluid. The results indicate that α-Ni(OH)2/OAc exhibits the most effective photocatalytic activity under optimal experimental conditions. The stability of the catalyst was confirmed through cycling studies. Possible degradation mechanisms were hypothesized based on DFT adsorption energy calculations and capture tests. The field performance of the application demonstrates that this work offers novel perspectives on the photocatalytic degradation of fracturing fluids.

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来源期刊
Sustainable Materials and Technologies
Sustainable Materials and Technologies Energy-Renewable Energy, Sustainability and the Environment
CiteScore
13.40
自引率
4.20%
发文量
158
审稿时长
45 days
期刊介绍: Sustainable Materials and Technologies (SM&T), an international, cross-disciplinary, fully open access journal published by Elsevier, focuses on original full-length research articles and reviews. It covers applied or fundamental science of nano-, micro-, meso-, and macro-scale aspects of materials and technologies for sustainable development. SM&T gives special attention to contributions that bridge the knowledge gap between materials and system designs.
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