Graphene, electrospun membranes and granular activated carbon for eliminating heavy metals, pesticides and bacteria in water and wastewater treatment processes

Rajapaksha Piumie P.; Power Aoife; Chandra Shaneel; Chapman James

首页> 外文期刊>The Analyst: The Analytical Journal of the Royal Society of Chemistry: A Monthly International Publication Dealing with All Branches of Analytical Chemistry >Graphene, electrospun membranes and granular activated carbon for eliminating heavy metals, pesticides and bacteria in water and wastewater treatment processes

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Graphene, electrospun membranes and granular activated carbon for eliminating heavy metals, pesticides and bacteria in water and wastewater treatment processes

机译：石墨烯，电纺膜和颗粒活性炭，用于消除水和废水处理过程中的重金属，杀虫剂和细菌的重金属，杀虫剂和细菌

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Access to safe water has a significant impact on all parts of society, its growth and sustainability, both politically and socioeconomically. Consequently, the preservation of water and wastewater treatment have become a global challenge. A major contributor to water pollution is improperly or untreated industrial emissions; water resources can be contaminated with harmful pollutants, toxins or pathogenic microorganisms. Carbon's unique chemistry and its evolution due to recent advances in carbon-based technologies such as nanomaterials, offer significant potential for a variety of water purification strategies. This work details the application of carbon materials in combination with nanotechnology in the form of graphene, graphene composites, electrospun membranes and improved activated carbon in a myriad of water treatment systems with an emphasis on the removal of heavy metals, pesticides and harmful bacteria.

机译：对安全水的访问对社会的所有部分，其生长和可持续性有重大影响，在政治上和社会经济上。因此，水和废水处理的保存已成为全球挑战。水污染的主要贡献者是不正确或未治疗的工业排放; 水资源可以被有害的污染物，毒素或病原微生物污染。由于碳基技术（如纳米材料）的最近进步，碳的独特化学及其进化提供了各种水净化策略的显着潜力。该工作详述了碳材料与石墨烯，石墨烯复合材料，电纺器膜的形式与纳米技术的施加结合，并在多种水处理系统中改进的活性炭，重点脱离了重金属，杀虫剂和有害细菌。

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《The Analyst: The Analytical Journal of the Royal Society of Chemistry: A Monthly International Publication Dealing with All Branches of Analytical Chemistry》 |2018年第23期|共17页
作者
Rajapaksha Piumie P.; Power Aoife; Chandra Shaneel; Chapman James;
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CQ Univ Australia Cent Queensland Innovat &

Res Precinct Bldg 361 Ibis Ave North Rockhampton Qld 4701 Australia;

CQ Univ Australia Cent Queensland Innovat &

Res Precinct Bldg 361 Ibis Ave North Rockhampton Qld 4701 Australia;

CQ Univ Australia Cent Queensland Innovat &

Res Precinct Bldg 361 Ibis Ave North Rockhampton Qld 4701 Australia;

RMIT Univ Sch Sci 124 La Trobe St Melbourne Vic 3000 Australia;

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正文语种 eng
中图分类分析化学;
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1. Graphene, electrospun membranes and granular activated carbon for eliminating heavy metals, pesticides and bacteria in water and wastewater treatment processes [J] . Rajapaksha Piumie P., Power Aoife, Chandra Shaneel, The Analyst: The Analytical Journal of the Royal Society of Chemistry: A Monthly International Publication Dealing with All Branches of Analytical Chemistry . 2018,第23期

机译：石墨烯，电纺膜和颗粒活性炭，用于消除水和废水处理过程中的重金属，杀虫剂和细菌的重金属，杀虫剂和细菌
2. Characteristic numbers of granular activated carbon for the elimination of micropollutants from effluents of municipal wastewater treatment plants [J] . Benstoem F., Pinnekamp J. Water Science and Technology . 2017,第1a2期

机译：从城市废水处理厂废水消除微污染的粒状活性炭的特征数
3. Improved degradation of diuron herbicide and pesticide wastewater treatment in a three-dimensional electrochemical reactor equipped with PbO_2 anodes and granular activated carbon particle electrodes [J] . Rahmani Alireza, Leili Mostafa, Seid-Mohammadi Abdolmotaleb, Journal of Cleaner Production . 2021,第Nova1期

机译：在配备有PbO_2阳极和粒状活性炭粒子电极的三维电化学反应器中改善了利尿除草剂和农药废水处理的降解
4. Treatment of heavy metal-bearing wastewaters using activated carbon [C] . Brian E. Reed, Bot Thomas Annual international Pittsburgh coal conference . 1995

机译：活性炭处理重金属废水
5. Experimental and modeling studies on membrane-aerated granular activated carbon-sequencing batch biofilm reactors for wastewater treatment. [D] . Chatzopoulos, Dimitrios. 1994

机译：膜曝气颗粒活性炭排序生物膜反应器用于废水处理的实验和模型研究。
6. New Activated Carbon from Mine Coal for Adsorption of Dye in Simulated Water or Multiple Heavy Metals in Real Wastewater [O] . Marwa Elkady, Hassan Shokry, Hesham Hamad 2020

机译：矿用煤中的新型活性炭在真实废水中吸附模拟水或多种重金属中的染料。
7. Characteristic numbers of granular activated carbon for the elimination of micropollutants from effluents of municipal wastewater treatment plants [O] . F. Benstoem, J. Pinnekamp 2017

机译：从城市废水处理厂废水消除微污染的粒状活性炭的特征数
8. Treatment of Organic and Inorganic Pollutants in Municipal Wastewater by Agricultural By-Product Based Granular Activated Carbons (GAC). [R] . Bansode, R. R. 2002

机译：农副产品颗粒活性炭（GaC）处理城市污水中有机和无机污染物。

Graphene, electrospun membranes and granular activated carbon for eliminating heavy metals, pesticides and bacteria in water and wastewater treatment processes

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