Study on the Removal Performance of Natural Manganese Ore and Iron-Oxidizing Bacteria on the Arsenic

Journal of Residuals Science & Technology Pub Date : 2017-01-01 DOI:10.12783/ISSN.1544-8053/14/1/45

Hu Yongbin, Qiu Qiang Xu Wei Gao Huiqin She Rui Niu Chenyu, Tu Shuxin

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引用次数: 1

Abstract

In this study, through the leaching of iron oxidizing bacteria with natural manganese ore, by the using of X-ray fluorescence, the X-ray diffraction analysis, and scanning electron microscopy testing technology to characterize the prepared eroded manganese ore, which also gives a further research on the removal performance and mechanism of the eroded manganese ore on the arsenic. The results of the experiment showed that the saturated adsorption capacity of eroded manganese ore on the As(III) and As(V) were 18.52 mg/g and 19.23 mg/g respectively. The Langmuir adsorption model adsorption gives a good description on the removal of arsenic by the eroded manganese ore. The removal rate of arsenic is positively correlated with temperature, when the pH value is near neutral, the best removal performance of eroded manganese ore on the arsenic can be achieved, and the coexisting cation (Ca2+, Mg2+) can promote the removal rate of arsenic. With the characterization experiment, it shows that the main components (Mn, Si, Fe, Al) of manganese ore did not change before and after immersion, but the content of MnO decreased by 11.62%, Fe2O3 increased by 13.38%, the content of hydroxyl increase, porosity increased by 31.81%, porosity ratio increased 0.472.

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天然锰矿石及铁氧化菌对砷的去除性能研究

本研究通过铁氧化菌浸出天然锰矿石，利用x射线荧光、x射线衍射分析、扫描电镜检测等技术对制备的侵蚀锰矿石进行表征，进一步研究了侵蚀锰矿石对砷的去除性能及机理。实验结果表明，侵蚀锰矿石对As(III)和As(V)的饱和吸附量分别为18.52 mg/g和19.23 mg/g。Langmuir吸附模型很好地描述了侵蚀锰矿石对砷的去除，砷的去除率与温度呈正相关，当pH值接近中性时，侵蚀锰矿石对砷的去除效果最佳，共存阳离子(Ca2+、Mg2+)对砷的去除率有促进作用。表征实验表明，浸矿前后锰矿石的主要成分(Mn、Si、Fe、Al)没有变化，但MnO含量下降了11.62%，Fe2O3含量增加了13.38%，羟基含量增加，孔隙度增加了31.81%，孔隙度比增加了0.472。

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来源期刊

Journal of Residuals Science & Technology 环境科学-工程：环境

自引率

0.00%

发文量

审稿时长

>36 weeks

期刊介绍： The international Journal of Residuals Science & Technology (JRST) is a blind-refereed quarterly devoted to conscientious analysis and commentary regarding significant environmental sciences-oriented research and technical management of residuals in the environment. The journal provides a forum for scientific investigations addressing contamination within environmental media of air, water, soil, and biota and also offers studies exploring source, fate, transport, and ecological effects of environmental contamination.