Structured carbon foam derived from waste biomass: application to endocrine disruptor adsorption

Zbair Mohamed; Ojala Satu; Khallok Hamza; Ainassaari Kaisu; El Assal Zouhair; Hatim Zineb; Keiski Riitta L.; Bensitel Mohamed; Brahmi Rachid

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Structured carbon foam derived from waste biomass: application to endocrine disruptor adsorption

机译：衍生自废物生物量的结构碳泡沫：应用于内分泌破坏器吸附

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In this paper, a novel structured carbon foam has been prepared from argan nut shell (ANS) was developed and applied in bisphenol A (BPA) removal from water. The results showed that the prepared carbon foam remove 93% of BPA (60 mg/L). The BPA equilibrium data obeyed the Liu isotherm, displaying a maximum uptake capacity of 323.0 mg/g at 20 degrees C. The calculated free enthalpy change ( increment H degrees = - 4.8 kJ/mol) indicated the existence of physical adsorption between BPA and carbon foam. Avrami kinetic model was able to explain the experimental results. From the regeneration tests, we conclude that the prepared carbon foam has a good potential to be used as an economic and efficient adsorbent for BPA removal from contaminated water. Based on these results and the fact that the developed structured carbon foam is very easy to separate from treated water, it can serve as an interesting material for real water treatment applications.

机译：在本文中，开发了一种新型结构化碳泡沫，由Argan坚果壳（ANS）制备并施用于来自水的双酚A（BPA）。结果表明，制备的碳泡沫除去93％的BPA（60mg / L）。 BPA平衡数据服从刘等温线，在20摄氏度下显示最大摄取容量为323.0mg / g。计算的游离焓变（增量H度= -4.8kJ / mol）表明BPA和碳之间的物理吸附存在泡沫。 Avrami动力学模型能够解释实验结果。从再生试验中，我们得出结论，制备的碳泡沫具有良好的潜力，可用作来自受污染的水的BPA的经济和有效的吸附剂。基于这些结果以及开发的结构碳泡沫非常容易与处理水分离的事实，它可以作为真实水处理应用的有趣材料。

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来源
《Environmental Science and Pollution Research》 |2019年第31期|共11页
作者
Zbair Mohamed; Ojala Satu; Khallok Hamza; Ainassaari Kaisu; El Assal Zouhair; Hatim Zineb; Keiski Riitta L.; Bensitel Mohamed; Brahmi Rachid;
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作者单位

Univ Chouaib Doukkali Fac Sci Dept Chem Lab Catalysis &

Corros Mat BP 20 El Jadida 24000 Morocco;

Univ Oulu Fac Technol Environm &

Chem Engn POB 4300 FI-90014 Oulu Finland;

Univ Chouaib Doukkali Fac Sci Dept Chem Team Energy Mat &

Environm El Jadida Morocco;

Univ Oulu Fac Technol Environm &

Chem Engn POB 4300 FI-90014 Oulu Finland;

Univ Oulu Fac Technol Environm &

Chem Engn POB 4300 FI-90014 Oulu Finland;

Univ Chouaib Doukkali Fac Sci Dept Chem Team Energy Mat &

Environm El Jadida Morocco;

Univ Oulu Fac Technol Environm &

Chem Engn POB 4300 FI-90014 Oulu Finland;

Univ Chouaib Doukkali Fac Sci Dept Chem Lab Catalysis &

Corros Mat BP 20 El Jadida 24000 Morocco;

Univ Chouaib Doukkali Lab Coordinat &

Analyt Chem LCCA El Jadida Morocco;

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原文格式 PDF
正文语种 eng
中图分类环境污染及其防治;环境科学、安全科学;
关键词
Endocrine disruptor; Bisphenol A; Adsorption; Carbon foam; Regeneration; Water purification;

机译：内分泌破坏剂;双酚A;吸附;碳泡沫;再生;水净化;

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1. Structured carbon foam derived from waste biomass: application to endocrine disruptor adsorption [J] . Zbair Mohamed, Ojala Satu, Khallok Hamza, Environmental Science and Pollution Research . 2019,第31期

机译：衍生自废物生物量的结构碳泡沫：应用于内分泌破坏器吸附
2. Adsorption of nitroimidazole antibiotics from aqueous solutions on self-shaping porous biomass carbon foam pellets derived from Vallisneria natans waste as a new adsorbent [J] . Sun Lei, Wan Shungang, Yuan Dan, The Science of the Total Environment . 2019,第MAYa10期

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3. Waste-polystyrene foams-derived magnetic carbon material for adsorption and redox supercapacitor applications [J] . Machado Natalia C. F., Jesus Larissa A. M. de, Pinto Paula S., Journal of Cleaner Production . 2021,第Sepa1期

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4. ELUCIDATING THE ADSORPTION OF TRACE ENDOCRINE DISRUPTORS AND PHARMACEUTICALS ON TAILORED ACTIVATED CARBONS USING A QUANTITATIVE STRUCTURE-ACTIVITY RELATIONSHIP [C] . Adam M. Redding, Fred S. Cannon, Shane A. Snyder, International conference on carbon;CARBON 08 . 2008

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5. Examining granular activated carbon adsorption of organic contaminants from water: Endocrine disruptors/pharmaceuticals, methyl tert-butyl ether, and benzene. [D] . Redding, Adam Michael. 2008

机译：检查颗粒状活性炭对水中有机污染物的吸附：内分泌干扰物/药物，甲基叔丁基醚和苯。
6. Steam activation of waste biomass: highly microporous carbon optimization of bisphenol A and diuron adsorption by response surface methodology [O] . Mohamed Zbair, Kaisu Ainassaari, Zouhair El Assal, -1

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7. Hydrothermal Carbonization‐Derived Carbon from Waste Biomass as Renewable Pt Support for Fuel Cell Applications: Role of Carbon Activation [O] . Dana Schonvogel, Manuel Nowotny, Tim Woriescheck, 2019

机译：来自废生物质的水热碳化碳作为可再生PT燃料电池应用的可再生PT支持：碳活化的作用

Structured carbon foam derived from waste biomass: application to endocrine disruptor adsorption

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