Application of Efficient Magnetic Particles and Activated Carbon for Dye Removal from Wastewater.,ACS Omega

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Application of Efficient Magnetic Particles and Activated Carbon for Dye Removal from Wastewater.
ACS Omega ( IF 3.7 ) Pub Date : 2020-08-10 , DOI: 10.1021/acsomega.0c01905
Seyedehmaryam Moosavi ₁ , Chin Wei Lai ₁ , Sinyee Gan ₂ , Golnoush Zamiri ₃ , Omid Akbarzadeh Pivehzhani ₁ , Mohd Rafie Johan ₁

Affiliation

Since the turn of the 21st century, water pollution has been a major issue, and most of the pollution is generated by dyes. Adsorption is one of the most commonly used dye-removal methods from aqueous solution. Magnetic-particle integration in the water-treatment industry is gaining considerable attention because of its outstanding physical and chemical properties. Magnetic-particle adsorption technology shows promising and effective outcomes for wastewater treatment owing to the presence of magnetic material in the adsorbents that can facilitate separation through the application of an external magnetic field. Meanwhile, the introduction of activated carbon (AC) derived from various materials into a magnetic material can lead to efficient organic-dye removal. Therefore, this combination can provide an economical, efficient, and environmentally friendly water-purification process. Although activated carbon from low-cost and abundant materials has considerable potential in the water-treatment industry, the widespread applications of adsorption technology are limited by adsorbent recovery and separation after treatment. This work specifically and comprehensively describes the use of a combination of a magnetic material and an activated carbon material for dye adsorption in wastewater treatment. The literature survey in this mini-review provides evidence of the potential use of these magnetic adsorbents, as well as their magnetic separation and recovery. Future directions and challenges of magnetic activated carbon in wastewater treatment are also discussed in this paper.

中文翻译：

高效磁性颗粒和活性炭在废水中去除染料的应用。

自21世纪初以来，水污染一直是主要问题，大部分污染是由染料产生的。吸附是从水溶液中去除染料的最常用方法之一。由于其出色的物理和化学特性，水处理行业中的磁粉集成得到了广泛的关注。磁性颗粒吸附技术由于在吸附剂中存在磁性物质，可通过施加外部磁场促进分离，对废水处理显示出令人鼓舞和有效的结果。同时，将来自各种材料的活性炭（AC）引入磁性材料可以有效去除有机染料。因此，这种组合可以提供经济，高效，和环保的净水工艺。尽管来自低成本和丰富材料的活性炭在水处理行业中具有巨大潜力，但吸附技术的广泛应用受到处理后吸附剂的回收和分离的限制。这项工作特别全面地描述了磁性材料和活性炭材料的组合在废水处理中吸附染料的用途。本微型综述中的文献调查提供了这些磁性吸附剂的潜在用途以及它们的磁性分离和回收的证据。本文还讨论了磁性活性炭在废水处理中的未来方向和挑战。尽管来自低成本和丰富材料的活性炭在水处理行业中具有巨大潜力，但吸附技术的广泛应用受到处理后吸附剂的回收和分离的限制。这项工作特别全面地描述了磁性材料和活性炭材料的组合在废水处理中吸附染料的用途。本微型综述中的文献调查提供了这些磁性吸附剂的潜在用途以及它们的磁性分离和回收的证据。本文还讨论了磁性活性炭在废水处理中的未来方向和挑战。尽管来自低成本和丰富材料的活性炭在水处理行业中具有巨大潜力，但吸附技术的广泛应用受到处理后吸附剂的回收和分离的限制。这项工作特别全面地描述了磁性材料和活性炭材料的组合在废水处理中吸附染料的用途。本微型综述中的文献调查提供了这些磁性吸附剂的潜在用途以及它们的磁性分离和回收的证据。本文还讨论了磁性活性炭在废水处理中的未来方向和挑战。吸附技术的广泛应用受到处理后吸附剂的回收和分离的限制。这项工作特别全面地描述了磁性材料和活性炭材料的组合在废水处理中吸附染料的用途。本微型综述中的文献调查提供了这些磁性吸附剂的潜在用途以及它们的磁性分离和回收的证据。本文还讨论了磁性活性炭在废水处理中的未来方向和挑战。吸附技术的广泛应用受到处理后吸附剂的回收和分离的限制。这项工作特别全面地描述了磁性材料和活性炭材料的组合在废水处理中吸附染料的用途。本微型综述中的文献调查提供了这些磁性吸附剂的潜在用途以及它们的磁性分离和回收的证据。本文还讨论了磁性活性炭在废水处理中的未来方向和挑战。本微型综述中的文献调查提供了这些磁性吸附剂的潜在用途以及它们的磁性分离和回收的证据。本文还讨论了磁性活性炭在废水处理中的未来方向和挑战。本微型综述中的文献调查提供了这些磁性吸附剂的潜在用途以及它们的磁性分离和回收的证据。本文还讨论了磁性活性炭在废水处理中的未来方向和挑战。

更新日期：2020-08-25

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