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锰功能化粉煤灰耦合催化臭氧化降解乙酸钠:反应参数与机理

Degradation of Sodium Acetate by Catalytic Ozonation Coupled with a Mn-Functionalized Fly Ash: Reaction Parameters and Mechanism.

作者信息

Chen Yaoji, Chen Ruifu, Chang Xinglan, Yan Jingying, Gu Yajie, Xi Shuang, Sun Pengfei, Dong Xiaoping

机构信息

Zhejiang Tiandi Environmental Protection Technology Co., Ltd., 2159-1 Yuhangtang Road, Hangzhou 311199, China.

Key Laboratory of Surface & Interface Science of Polymer Materials of Zhejiang Province, School of Chemistry and Chemical Engineering, Zhejiang Sci-Tech University, 928 Second Avenue, Xiasha Higher Education Zone, Hangzhou 310018, China.

出版信息

Toxics. 2023 Aug 14;11(8):700. doi: 10.3390/toxics11080700.

DOI:10.3390/toxics11080700
PMID:37624205
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10457793/
Abstract

Supported ozone catalysts usually take alumina, activated carbon, mesoporous molecular sieve, graphene, etc. as the carrier for loading metal oxide via the impregnation method, sol-gel method and precipitation method. In this work, a Mn-modified fly ash catalyst was synthesized to reduce the consumption and high unit price of traditional catalyst carriers like alumina. As a solid waste discharged from coal-fired power plants fueled by coal, fly ash also has porous spherical fine particles with constant surface area and activity, abd is expected to be applied as the main component in the synthesis of ozone catalyst. After the pretreatment process and modification with MnOx, the obtained Mn-modified fly ash exhibited stronger specific surface area and porosity combined with considerable ozone catalytic performance. We used sodium acetate as the contaminant probe, which is difficult to directly decompose with ozone as the end product of ozone oxidation, to evaluate the performance of this Mn-modified fly. It was found that ozone molecules can be transformed to generate ·OH, ·O and O for the further oxidation of sodium acetate. The oxygen vacancy produced via Mn modification plays a crucial role in the adsorption and excitation of ozone. This work demonstrates that fly ash, as an industrial waste, can be synthesized as a potential industrial catalyst with stable physical and chemical properties, a simple preparation method and low costs.

摘要

负载型臭氧催化剂通常以氧化铝、活性炭、介孔分子筛、石墨烯等为载体,通过浸渍法、溶胶 - 凝胶法和沉淀法负载金属氧化物。在本研究中,合成了一种锰改性粉煤灰催化剂,以降低氧化铝等传统催化剂载体的消耗和高单价。作为以煤为燃料的燃煤电厂排放的固体废物,粉煤灰还具有具有恒定表面积和活性的多孔球形细颗粒,有望作为臭氧催化剂合成的主要成分。经过预处理和MnOx改性后,所得的锰改性粉煤灰表现出更强的比表面积和孔隙率,以及可观的臭氧催化性能。我们使用乙酸钠作为污染物探针,其难以被臭氧直接分解,作为臭氧氧化的最终产物,以评估这种锰改性粉煤灰的性能。研究发现,臭氧分子可以转化生成·OH、·O和O,用于进一步氧化乙酸钠。通过锰改性产生的氧空位在臭氧的吸附和激发中起关键作用。这项工作表明,粉煤灰作为一种工业废料,可以被合成为一种潜在的工业催化剂,具有稳定的物理和化学性质、简单的制备方法和低成本。

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Synergistic mechanism of supported Mn-Ce oxide in catalytic ozonation of nitrofurazone wastewater.负载型 Mn-Ce 氧化物在催化臭氧化处理呋喃西林废水中的协同机制。
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Highly porous α-MnO nanorods with enhanced defect accessibility for efficient catalytic ozonation of refractory pollutants.
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Gold-selenide quantum dots supported onto cesium ferrite nanocomposites for the efficient degradation of rhodamine B.负载于铁酸铯纳米复合材料上的硒化镉量子点用于高效降解罗丹明B。
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