A review on CO2 capture over novel adsorbents: Progress in robust zeolite adsorbent development

Q4 Engineering

Nigerian Journal of Technological Development Pub Date : 2024-03-11 DOI:10.4314/njtd.v21i1.2235

H. U. Hambali, T. Jimoh, T. L. Peng, A. A. Umar, B. T. Mutiullah, J. A. Okolie

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Abstract

Indubitably, the combustion of fossils fuels has really hampered the preservation of the environment as it raises the content of CO2 in the atmosphere which consequentially results in global warming. Adsorption process remains the popular technique owing to its cost-effectiveness, faster reaction rates and flexible design. This review detailed the research progress in preparation of modified zeolite-based and novel adsorbents towards enhanced CO2 capture. In addition, the review presents an overview on available techniques of capturing CO2 and mechanism of reaction. Large surface area, distinctive mechanical characteristics and uniform dispersion of the exchangeable cations in the porous framework is prerequisite for high adsorption capacity and stability over zeolite materials. Novel nanostructured and polymeric zeolite composite materials seem promising because they offer solutions to energy-related problems while also contributing to environmental preservation. It is anticipated that this review could offer a conclusive roadmap in the pursuit of a cost-effective, industrially potent adsorbent suited for enhance CO2 capture.

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新型吸附剂捕获二氧化碳综述：强效沸石吸附剂的开发进展

毋庸置疑，化石燃料的燃烧确实阻碍了环境保护，因为它增加了大气中的二氧化碳含量，从而导致全球变暖。吸附工艺因其成本效益高、反应速度快和设计灵活等优点，仍然是最受欢迎的技术。本综述详细介绍了在制备改性沸石基和新型吸附剂以提高二氧化碳捕集能力方面的研究进展。此外，综述还概述了现有的二氧化碳捕集技术和反应机理。大表面积、独特的机械特性以及多孔框架中可交换阳离子的均匀分散是沸石材料具有高吸附容量和稳定性的先决条件。新型纳米结构和聚合物沸石复合材料似乎大有可为，因为它们既能解决与能源有关的问题，又能促进环境保护。预计本综述将为寻求适合提高二氧化碳捕获能力的、具有成本效益和工业效力的吸附剂提供一个结论性的路线图。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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