Weak magnetic field accelerates chromate removal by zero-valent iron

Weak magnetic field accelerates chromate removal by zero-valent iron

Weak magnetic field(WMF) was employed to improve the removal of Cr(VI) by zero-valent iron(ZVI) for the first time. The removal rate of Cr(VI) was elevated by a factor of 1.12-5.89 due to the application of a WMF, and the WMF-induced improvement was more remarkable at higher Cr(VI) concentration and...

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Veröffentlicht in:Journal of environmental sciences (China) 2015-05, Vol.31 (5), p.175-183
Hauptverfasser: Feng, Pian, Guan, Xiaohong, Sun, Yuankui, Choi, Wonyong, Qin, Hejie, Wang, Jianmin, Qiao, Junlian, Li, Lina
Format: Artikel
Sprache:eng
Schlagworte:
Activation energy
Chemical Precipitation
Chromates - chemistry
Cr(VI)
Fe2 + release
Hydrogen-Ion Concentration
Iron - chemistry
Iron corrosion
Magnetic Fields
Magnetic memory
Microscopy, Electron, Scanning
Reduction
Water Pollutants, Chemical - chemistry
WMF
加速腐蚀
弱磁场
正相关关系
表观活化能
释放速率
零价铁
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container_end_page 183
container_issue 5
container_start_page 175
container_title Journal of environmental sciences (China)
container_volume 31
creator Feng, Pian
Guan, Xiaohong
Sun, Yuankui
Choi, Wonyong
Qin, Hejie
Wang, Jianmin
Qiao, Junlian
Li, Lina
description Weak magnetic field(WMF) was employed to improve the removal of Cr(VI) by zero-valent iron(ZVI) for the first time. The removal rate of Cr(VI) was elevated by a factor of 1.12-5.89 due to the application of a WMF, and the WMF-induced improvement was more remarkable at higher Cr(VI) concentration and higher p H. Fe2+was not detected until Cr(VI) was exhausted, and there was a positive correlation between the WMF-induced promotion factor of Cr(VI) removal rate and that of Fe2+release rate in the absence of Cr(VI) at pH 4.0-5.5. These phenomena imply that ZVI corrosion with Fe2+release was the limiting step in the process of Cr(VI) removal. The superimposed WMF had negligible influence on the apparent activation energy of Cr(VI) removal by ZVI, indicating that WMF accelerated Cr(VI)removal by ZVI but did not change the mechanism. The passive layer formed with WMF was much more porous than without WMF, thereby facilitating mass transport. Therefore,WMF could accelerate ZVI corrosion and alleviate the detrimental effects of the passive layer, resulting in more rapid removal of Cr(VI) by ZVI. Exploiting the magnetic memory of ZVI, a two-stage process consisting of a small reactor with WMF for ZVI magnetization and a large reactor for removing contaminants by magnetized ZVI can be employed as a new method of ZVI-mediated remediation.
doi_str_mv 10.1016/j.jes.2014.10.017
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The removal rate of Cr(VI) was elevated by a factor of 1.12-5.89 due to the application of a WMF, and the WMF-induced improvement was more remarkable at higher Cr(VI) concentration and higher p H. Fe2+was not detected until Cr(VI) was exhausted, and there was a positive correlation between the WMF-induced promotion factor of Cr(VI) removal rate and that of Fe2+release rate in the absence of Cr(VI) at pH 4.0-5.5. These phenomena imply that ZVI corrosion with Fe2+release was the limiting step in the process of Cr(VI) removal. The superimposed WMF had negligible influence on the apparent activation energy of Cr(VI) removal by ZVI, indicating that WMF accelerated Cr(VI)removal by ZVI but did not change the mechanism. The passive layer formed with WMF was much more porous than without WMF, thereby facilitating mass transport. Therefore,WMF could accelerate ZVI corrosion and alleviate the detrimental effects of the passive layer, resulting in more rapid removal of Cr(VI) by ZVI. 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The removal rate of Cr(VI) was elevated by a factor of 1.12-5.89 due to the application of a WMF, and the WMF-induced improvement was more remarkable at higher Cr(VI) concentration and higher p H. Fe2+was not detected until Cr(VI) was exhausted, and there was a positive correlation between the WMF-induced promotion factor of Cr(VI) removal rate and that of Fe2+release rate in the absence of Cr(VI) at pH 4.0-5.5. These phenomena imply that ZVI corrosion with Fe2+release was the limiting step in the process of Cr(VI) removal. The superimposed WMF had negligible influence on the apparent activation energy of Cr(VI) removal by ZVI, indicating that WMF accelerated Cr(VI)removal by ZVI but did not change the mechanism. The passive layer formed with WMF was much more porous than without WMF, thereby facilitating mass transport. Therefore,WMF could accelerate ZVI corrosion and alleviate the detrimental effects of the passive layer, resulting in more rapid removal of Cr(VI) by ZVI. Exploiting the magnetic memory of ZVI, a two-stage process consisting of a small reactor with WMF for ZVI magnetization and a large reactor for removing contaminants by magnetized ZVI can be employed as a new method of ZVI-mediated remediation.</abstract><cop>Netherlands</cop><pub>Elsevier B.V</pub><pmid>25968271</pmid><doi>10.1016/j.jes.2014.10.017</doi><tpages>9</tpages></addata></record>
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source MEDLINE; Elsevier ScienceDirect Journals; Alma/SFX Local Collection
subjects Activation energy
Chemical Precipitation
Chromates - chemistry
Cr(VI)
Fe2 + release
Hydrogen-Ion Concentration
Iron - chemistry
Iron corrosion
Magnetic Fields
Magnetic memory
Microscopy, Electron, Scanning
Reduction
Water Pollutants, Chemical - chemistry
WMF
加速腐蚀
弱磁场
正相关关系
表观活化能
释放速率
零价铁
title Weak magnetic field accelerates chromate removal by zero-valent iron
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