Leaching of vanadium and chromium from converter vanadium slag intensified with surface wettability

Technology intensified with surface wettability was introduced to leach vanadium and chromium from converter vanadium slag without roasting. Parameters affecting the leaching efficiency of vanadium and chromium were investigated: sulfuric acid concentration, MnO 2 -to-slag mass ratio, liquid-to-soli...

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Published in	Journal of Central South University Vol. 25; no. 6; pp. 1317 - 1325
Main Authors	Yang, Qi-wen, Xie, Zhao-ming, Peng, Hao, Liu, Zuo-hua, Tao, Chang-yuan
Format	Journal Article
Language	English
Published	Changsha Central South University 01.06.2018 Springer Nature B.V
Subjects	Chromium Engineering Leaching Manganese dioxide Metallic Materials Organic chemistry Reaction mechanisms Sodium dodecyl sulfate Steel converters Sulfuric acid Surface tension Vanadium Wettability 二氧化锰 chromium 钒十二烷基硫酸钠 vanadium leaching 铬 surfactant MnO 浸出
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ISSN	2095-2899 2227-5223
DOI	10.1007/s11771-018-3828-2

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Abstract	Technology intensified with surface wettability was introduced to leach vanadium and chromium from converter vanadium slag without roasting. Parameters affecting the leaching efficiency of vanadium and chromium were investigated: sulfuric acid concentration, MnO 2 -to-slag mass ratio, liquid-to-solid ratio, leaching time, leaching temperature, and sodium dodecyl sulfate (SDS)-to-slag mass ratio. The leaching efficiencies of vanadium and chromium were 33.46 % and 20.02 % higher in the presence of MnO 2 and SDS, respectively, compared to the control. The leaching efficiencies of vanadium and chromium were 68.93 % and 30.74 %, respectively, under the optimum conditions: sulfuric acid concentration 40 wt%, MnO 2 -to-slag mass ratio 10.0 wt%, liquid-to-solid ratio 5:1 mL/g; 12 h; 90 °C; and SDS-to-slag mass ratio 0.25 wt%. The analysis of the reaction mechanism in the leaching process indicates that MnO 2 combined with protons (H + ) could oxidize low-valent vanadium and chromium; SDS could change the chemical behavior and decrease the surface tension of the aqueous solution to favor MnO 2 oxidization.
AbstractList	Technology intensified with surface wettability was introduced to leach vanadium and chromium from converter vanadium slag without roasting. Parameters affecting the leaching efficiency of vanadium and chromium were investigated: sulfuric acid concentration, MnO2-to-slag mass ratio, liquid-to-solid ratio, leaching time, leaching temperature, and sodium dodecyl sulfate (SDS)-to-slag mass ratio. The leaching efficiencies of vanadium and chromium were 33.46 % and 20.02 % higher in the presence of MnO2 and SDS, respectively, compared to the control. The leaching efficiencies of vanadium and chromium were 68.93 % and 30.74 %, respectively, under the optimum conditions: sulfuric acid concentration 40 wt%, MnO2-to-slag mass ratio 10.0 wt%, liquid-to-solid ratio 5:1 mL/g; 12 h; 90 °C; and SDS-to-slag mass ratio 0.25 wt%. The analysis of the reaction mechanism in the leaching process indicates that MnO2 combined with protons (H+) could oxidize low-valent vanadium and chromium; SDS could change the chemical behavior and decrease the surface tension of the aqueous solution to favor MnO2 oxidization. Technology intensified with surface wettability was introduced to leach vanadium and chromium from converter vanadium slag without roasting. Parameters affecting the leaching efficiency of vanadium and chromium were investigated: sulfuric acid concentration, MnO 2 -to-slag mass ratio, liquid-to-solid ratio, leaching time, leaching temperature, and sodium dodecyl sulfate (SDS)-to-slag mass ratio. The leaching efficiencies of vanadium and chromium were 33.46 % and 20.02 % higher in the presence of MnO 2 and SDS, respectively, compared to the control. The leaching efficiencies of vanadium and chromium were 68.93 % and 30.74 %, respectively, under the optimum conditions: sulfuric acid concentration 40 wt%, MnO 2 -to-slag mass ratio 10.0 wt%, liquid-to-solid ratio 5:1 mL/g; 12 h; 90 °C; and SDS-to-slag mass ratio 0.25 wt%. The analysis of the reaction mechanism in the leaching process indicates that MnO 2 combined with protons (H + ) could oxidize low-valent vanadium and chromium; SDS could change the chemical behavior and decrease the surface tension of the aqueous solution to favor MnO 2 oxidization.
Author	Peng, Hao Liu, Zuo-hua Yang, Qi-wen Xie, Zhao-ming Tao, Chang-yuan
Author_xml	– sequence: 1 givenname: Qi-wen surname: Yang fullname: Yang, Qi-wen organization: Chongqing Key Laboratory of Chemical Process for Clean Energy and Resource Utilization, Chongqing University, College of Chemistry and Chemical Engineering, Chongqing University – sequence: 2 givenname: Zhao-ming surname: Xie fullname: Xie, Zhao-ming email: xiezm@cqu.edu.cn organization: Chongqing Key Laboratory of Chemical Process for Clean Energy and Resource Utilization, Chongqing University, College of Chemistry and Chemical Engineering, Chongqing University – sequence: 3 givenname: Hao surname: Peng fullname: Peng, Hao organization: Chongqing Key Laboratory of Chemical Process for Clean Energy and Resource Utilization, Chongqing University, College of Chemistry and Chemical Engineering, Chongqing University – sequence: 4 givenname: Zuo-hua surname: Liu fullname: Liu, Zuo-hua email: liuzuohua@cqu.edu.cn organization: Chongqing Key Laboratory of Chemical Process for Clean Energy and Resource Utilization, Chongqing University, College of Chemistry and Chemical Engineering, Chongqing University – sequence: 5 givenname: Chang-yuan surname: Tao fullname: Tao, Chang-yuan organization: Chongqing Key Laboratory of Chemical Process for Clean Energy and Resource Utilization, Chongqing University, College of Chemistry and Chemical Engineering, Chongqing University
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Snippet	Technology intensified with surface wettability was introduced to leach vanadium and chromium from converter vanadium slag without roasting. Parameters...
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StartPage	1317
SubjectTerms	Chromium Engineering Leaching Manganese dioxide Metallic Materials Organic chemistry Reaction mechanisms Sodium dodecyl sulfate Steel converters Sulfuric acid Surface tension Vanadium Wettability
Title	Leaching of vanadium and chromium from converter vanadium slag intensified with surface wettability
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