Chemically modified biochar produced from conocarpus wastes: An efficient sorbent for Fe(II) removal from acidic aqueous solutions

Usman A.; Sallam A.; Al-Omran A.; El-Naggar A.; Alenazi K.; Nadeem M.; Al-Wabel M.

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Chemically modified biochar produced from conocarpus wastes: An efficient sorbent for Fe(II) removal from acidic aqueous solutions

机译：从果皮废料中产生的化学改性生物炭：一种用于从酸性水溶液中去除Fe（II）的有效吸附剂

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Fe(II) removal from acidic aqueous solutions using Conocarpus sp. biochar or chemically modified biochar prepared by synthesizing Mg(OH)2 on biochar surface as well as their comparison with zeolite sorbent (natural clinoptilolite) was investigated. Batch experiments were conducted as a function of initial pH of 2-5, contact time of 5-180 minutes and initial concentration of 10-200 mg l~(-1) (0.18-3.58 mmol l~(-1)). The sorption data indicated that the pseudo-second-order kinetic model was the best model to simulate adsorption of Fe(II) onto the all sorbents and could generally be described by the Freundlich model. The higher sorption capacities for Fe(II) ions were generally pronounced for chemically modified biochar (84.6-99.8%) followed by biochar (38.3-97.6%) than those that were achieved by zeolite (12.3-95.5%). Thus, remediating acidic wastewater contaminated with Fe(II) might be possible using Conocarpus biochar, especially the chemically modified biochar.

机译：使用Conocarpus sp。从酸性水溶液中去除Fe（II）。研究了通过在生物炭表面合成Mg（OH）2制备的生物炭或化学改性生物炭，以及它们与沸石吸附剂（天然斜发沸石）的比较。根据初始pH 2-5，接触时间5-180分钟和初始浓度10-200 mg l〜（-1）（0.18-3.58 mmol l〜（-1））进行批量实验。吸附数据表明，拟二级动力学模型是模拟Fe（II）在所有吸附剂上吸附的最佳模型，通常可以用Freundlich模型来描述。化学改性的生物炭（84.6-99.8％），其次是生物炭（38.3-97.6％）的Fe（II）离子的吸附能力通常比沸石（12.3-95.5％）更高。因此，可以使用康果果生物炭，特别是化学改性的生物炭来修复被Fe（II）污染的酸性废水。

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《Adsorption Science & Technology》 |2013年第7期|共16页
作者
Usman A.; Sallam A.; Al-Omran A.; El-Naggar A.; Alenazi K.; Nadeem M.; Al-Wabel M.;
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正文语种 eng
中图分类化学;
关键词
wastes; sorbent; removal;

机译：废物;吸附剂;去除;

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机译：由Conocarpus废物生产的化学改性生物炭：从酸性水溶液中去除Fe（II）的高效吸附剂

Chemically modified biochar produced from conocarpus wastes: An efficient sorbent for Fe(II) removal from acidic aqueous solutions

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