采用亚铁辅助电氧化技术同步去除重金属和实现污泥深度脱水。

Simultaneous heavy metal removal and sludge deep dewatering with Fe(II) assisted electrooxidation technology.

作者信息

Hu Shaogang, Hu Jingping, Sun Yingfei, Zhu Qian, Wu Longsheng, Liu Bingchuan, Xiao Keke, Liang Sha, Yang Jiakuan, Hou Huijie

机构信息

School of Environmental Science and Engineering, Huazhong University of Science and Technology (HUST), Wuhan 430074, PR China; Hubei Provincial Engineering Laboratory of Solid Waste Treatment, Disposal and Recycle Technology, Wuhan 430074, PR China; State Key Laboratory of Coal Combustion, Huazhong University of Science and Technology, Wuhan 430074, PR China.

出版信息

J Hazard Mater. 2021 Mar 5;405:124072. doi: 10.1016/j.jhazmat.2020.124072. Epub 2020 Oct 9.

DOI:10.1016/j.jhazmat.2020.124072

PMID:33535356

Abstract

A hybrid sludge conditioning strategy with electrooxidation and Fe(II) addition was used for heavy metal removal from sewage sludge and industrial sludge, with simultaneous sludge dewatering and stabilization. With the addition of 82 mg/g DS Fe(II) and treatment time of 4.5 h, heavy metal removals of 72.95% and 78.49% for Cu, 66.29% and 84.26% for Zn, and 36.52% and 36.99% for Pb were achieved from sewage sludge and industrial sludge samples respectively. The system pH decreased to 2.33 and 2.98 and the oxidation-reduction potential (ORP) values increased to 435.90 mV and 480.60 mV in sewage sludge and industrial sludge samples, respectively, which was conducive to the desorption and dissolution of heavy metals from sludge structures and the degradation of the organic compounds that complexed with heavy metals. In addition, the hybrid conditioning process demonstrated excellent dewatering performance due to the efficient electrochemical disintegration of sludge flocs together with the coagulation of sludge particles by Fe(III) generated via electrooxidation. The strong acidic and oxidative environment produced by the enhanced electrooxidation process was also responsible for pathogen inactivation.

摘要

采用电氧化和添加Fe(II)的混合污泥调理策略，用于去除污水污泥和工业污泥中的重金属，同时实现污泥脱水和稳定化。添加82 mg/g干固体的Fe(II)且处理时间为4.5小时时，污水污泥和工业污泥样品中Cu的重金属去除率分别达到72.95%和78.49%，Zn的去除率分别为66.29%和84.26%，Pb的去除率分别为36.52%和36.99%。污水污泥和工业污泥样品的系统pH分别降至2.33和2.98，氧化还原电位(ORP)值分别升至435.90 mV和480.60 mV，这有利于重金属从污泥结构中解吸和溶解，以及与重金属络合的有机化合物的降解。此外，由于污泥絮体的高效电化学分解以及电氧化产生的Fe(III)对污泥颗粒的凝聚作用，混合调理过程表现出优异的脱水性能。强化电氧化过程产生的强酸性和氧化性环境也有助于病原体失活。

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采用亚铁辅助电氧化技术同步去除重金属和实现污泥深度脱水。

Simultaneous heavy metal removal and sludge deep dewatering with Fe(II) assisted electrooxidation technology.

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