EFFECTIVE APPROACH TO WATER PURIFICATION FROM MICROBIOLOGICAL CONTAMINATION BASED ON NOVEL SURFACE-MODIFIED ADSORBENTS

Resource-Efficient Technologies Pub Date : 2020-12-14 DOI:10.18799/24056537/2020/4/275

E. Plotnikov, I. Martemianova, H. Tin, D. Martemianov, H. Duong

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Abstract

In this work, we provide a literature review of water treatment techniques and propose a novel resource-efficient solution for the purification of aqueous media from microbiological contamination. Methods: Combined filter sorbents were developed and studied based on novel modified nanostructured filter materials. Synthetic and natural zeolite were used as the mineral base. The production technique was optimized to coat minerals with aluminum oxyhydroxide by means of a sol–gel process. Additional treatment with fine zinc particles obtained by electrospark dispersion was applied to modify the sorbent surface and obtain the surface charge required. Results: The antibacterial, sorption and physicochemical properties of the samples as well as their surface structures were investigated. According to broad microbiological tests, the possibility of purifying bacterial-contaminated water was demonstrated to an acceptable level by means of adsorption filtration. Conclusion: The proposed novel approach for water treatment against bacterial contamination can be considered an alternative to the currently available water treatment technologies.

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新型表面改性吸附剂净化水体微生物污染的有效方法

在这项工作中，我们提供了水处理技术的文献综述，并提出了一种新的资源高效的解决方案，用于水介质的微生物污染净化。方法:以新型改性纳米结构过滤材料为基础，开发和研究复合过滤吸附剂。采用合成沸石和天然沸石作为矿物基质。采用溶胶-凝胶法制备氢氧化铝包覆矿物，优化了生产工艺。采用电火花分散获得的细锌颗粒进行附加处理，改性吸附剂表面并获得所需的表面电荷。结果:考察了样品的抗菌、吸附、理化性能及表面结构。根据广泛的微生物学测试，通过吸附过滤将细菌污染的水净化到可接受的水平的可能性被证明。结论:提出的新型水处理细菌污染的方法可以被认为是现有水处理技术的替代方案。

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Resource-Efficient Technologies

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审稿时长

7 weeks