粉煤灰改性对污泥基生物炭从水溶液中吸附磷的影响

IF 2.7 4区 环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES
Yanxin Zuo, Tian Tian, Shuangchao Tian, Liguo Wan, Benyi Xiao, Lin Li
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引用次数: 0

摘要

采用粉煤灰(FA)对污泥基生物炭(SBC)进行改性,以提高其对磷(P)的吸附能力,改性方法是在 600 °C 高温分解前在干燥的污水污泥中加入粉煤灰。FA 改性增加了 SBC 的表面积,减小了其平均孔径,提高了其铝和铁含量,改善了其结晶度,并将其最大磷吸附容量从 12.37 毫克吸附 P/g SBC(毫克/克)提高到 14.05 毫克/克。伪二阶动力学模型和 Langmuir 等温线模型很好地拟合了 P 在 SBC 上的吸附过程,表明 P 在 SBC 上的吸附是以化学吸附为主的单分子层吸附。P 在 SBC 上的吸附是自发的、内热的。经过四次吸附和解吸循环后,FA 改性使 SBC 的保留率从 74.9 ± 5.8% 提高到 80.8 ± 5.4%,从而提高了 SBC 的重复利用率。FA 改性使 SBC 的 P 吸附机制从配体交换、静电吸引和离子交换转变为表面内球络合物形成、静电吸引和离子交换。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of fly ash modification on phosphorus adsorption of sludge-based biochar from aqueous solution

Fly ash (FA) was used to modify sludge-based biochar (SBC) to improve its phosphorus (P) adsorption capacity, which was conducted by adding FA in the dried sewage sludge before 600 °C pyrolysis. FA modification increased the surface area of SBC, decreased its average pore diameter, increased its Al and Fe contents, improved its crystallinity, and enhanced its maximal P adsorption capacity from 12.37 mg adsorbed P/g SBC (mg/g) to 14.05 mg/g. The P adsorption process was well fitted by the pseudo-second-order kinetic and Langmuir isotherm models, indicating that P adsorption onto SBC was a single molecular layer adsorption dominated by chemical adsorption. The P adsorption onto SBCs was spontaneous and endothermic. FA modification improved the reusability of SBC by increasing the retention rate from 74.9 ± 5.8% to 80.8 ± 5.4% after four adsorption and desorption cycles. FA modification changed the P adsorption mechanism of SBC from ligand exchange, electrostatic attraction, and ion exchange to surface inner-sphere complex formation, electrostatic attraction, and ion exchange.

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来源期刊
CiteScore
5.30
自引率
16.10%
发文量
205
审稿时长
4.8 months
期刊介绍: The Journal of Material Cycles and Waste Management has a twofold focus: research in technical, political, and environmental problems of material cycles and waste management; and information that contributes to the development of an interdisciplinary science of material cycles and waste management. Its aim is to develop solutions and prescriptions for material cycles. The journal publishes original articles, reviews, and invited papers from a wide range of disciplines related to material cycles and waste management. The journal is published in cooperation with the Japan Society of Material Cycles and Waste Management (JSMCWM) and the Korea Society of Waste Management (KSWM).
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