Method development for flow adsorption and removal of lead and copper in contaminated water using electrospun nanofibers of chitosan blend

Nthumbi R.M.; Ngila J.C.; Kindness A.; Moodley B.; Petrik L.

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Method development for flow adsorption and removal of lead and copper in contaminated water using electrospun nanofibers of chitosan blend

机译：使用壳聚糖共混物的电纺纳米纤维对污染水中的流动吸附和去除铅和铜的方法开发

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This study reports column flow adsorption capacity for Pb and Cu of 56.54 mgg~(-1) and 5.75 mgg~(-1), respectively, using electrospun nanofibers (70-264 nm) of chitosan:polyacrylamide blend ratio 77:23 with glutaraldehyde cross-linking. The Freundlich isotherms gave a better fit than Langmuir. The fibers were applied in contaminated pond water and pulp wastewater, for removal of Pb and Cu, with removal efficiencies of 100% (Pb) and 98.6% (Cu) in pond water; and 97.2% (Pb) and 99.5% (Cu) in wastewater. The regeneration efficiencies (recovery %) were 64% (Pb) and 89% (Cu) in pond; 72% (Pb) and 90% (Cu) for pulp, respectively, using an adsorbent mass of 0.05g.

机译：本研究报告使用壳聚糖：聚丙烯酰胺与戊二醛的比例为77:23的电纺纳米纤维（70-264 nm），对Pb和Cu的柱流吸附能力分别为56.54 mgg〜（-1）和5.75 mgg〜（-1）。交联。 Freundlich等温线比Langmuir拟合得更好。该纤维用于污染的池塘水和纸浆废水中，用于去除Pb和Cu，去除率在池塘水中分别为100％（Pb）和98.6％（Cu）。废水中分别为97.2％（Pb）和99.5％（Cu）。池塘的再生效率（回收率）为64％（Pb）和89％（Cu）。纸浆的吸附量为0.05g，分别为72％（Pb）和90％（Cu）。

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《Analytical Letters》 |2011年第12期|共19页
作者
Nthumbi R.M.; Ngila J.C.; Kindness A.; Moodley B.; Petrik L.;
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正文语种 eng
中图分类分析化学;
关键词
Adsorption kinetics; Chitosan-polyacrylamide blend; Electrospinning; Heavy metal removal; Nanofibers; Wastewater;

机译：吸附动力学;壳聚糖-聚丙烯酰胺共混物;静电纺丝;重金属去除;纳米纤维;废水;

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机译：电纺壳聚糖 - 聚乙烯醇复合纳米纤维负载铈，有效去除污染水中的砷

Method development for flow adsorption and removal of lead and copper in contaminated water using electrospun nanofibers of chitosan blend

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