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Junxiong Wang

Huazhong University of Science and Technology

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Featured researches published by Junxiong Wang.

Environmental Science & Technology | 2018

An Emission-Free Vacuum Chlorinating Process for Simultaneous Sulfur Fixation and Lead Recovery from Spent Lead-Acid Batteries

Kang Liu; Jiakuan Yang; Sha Liang; Huijie Hou; Ye Chen; Junxiong Wang; Bingchuan Liu; Keke Xiao; Jingping Hu; Jin Wang

Spent lead-acid battery recycling by using conventional technologies is usually accompanied by releases of lead-containing wastewater as well as emissions of sulfur oxides and lead particulates that may potentially cause secondary pollution. This study developed a vacuum chlorinating process for simultaneous sulfur fixation and high-purity lead chloride (PbCl2) recovery from spent lead paste by using calcium chloride (CaCl2) and silicon dioxide (SiO2) as reagents. The process train includes pretreatment, simultaneous PbCl2 production and sulfur fixation, and PbCl2 volatilization. The pretreatment eliminated chlorine emission from direct chlorinating reaction of PbO2 in the initial S-paste (PbSO4/PbO2/PbO/Pb). During the subsequent PbCl2 production and sulfur fixation step, lead compounds in the P-paste (PbSO4/PbO) was converted to volatile PbCl2, and sulfur was simultaneously fixed to the solid residues in the form of CaSO4 to eliminate the emission of sulfur oxides. The final step, PbCl2 volatilization under vacuum, is a physical phase-transformation process of ionic crystals, following a zeroth-order kinetic model. A cost estimate indicates a profit of USD

Renewable & Sustainable Energy Reviews | 2016

A critical review on secondary lead recycling technology and its prospect

Wei Zhang; Jiakuan Yang; Xu Wu; Yuchen Hu; Wenhao Yu; Junxiong Wang; Jinxin Dong; Mingyang Li; Sha Liang; Jingping Hu; R. Vasant Kumar

8.50/kg PbCl2. This process offers a novel green lead recovery alternative for spent lead-acid batteries with environmental and economic benefits.

Journal of Power Sources | 2016

A novel leady oxide combined with porous carbon skeleton synthesized from lead citrate precursor recovered from spent lead-acid battery paste

Yuchen Hu; Jiakuan Yang; Wei Zhang; Yanlin Xie; Junxiong Wang; Xiqing Yuan; R. Vasant Kumar; Sha Liang; Jingping Hu; Xu Wu

Hydrometallurgy | 2016

Effect of pH on desulphurization of spent lead paste via hydrometallurgical process

Wei Zhang; Jiakuan Yang; Yuchen Hu; Xiong He; Xinfeng Zhu; R. Vasant Kumar; Wenhao Yu; Junxiong Wang; Mingyang Li; Sha Liang; Jingping Hu; Xu Wu

Chemical Engineering Journal | 2017

Study on dewaterability limit and energy consumption in sewage sludge electro-dewatering by in-situ linear sweep voltammetry analysis

Wenbo Yu; Jiakuan Yang; Xu Wu; Yueyuan Gu; Jun Xiao; Jiangwei Yu; Yafei Shi; Junxiong Wang; Sha Liang; Bingchuan Liu; Huijie Hou; Jingping Hu

Advanced Functional Materials | 2018

Synthesis of Nanostructured PbO@C Composite Derived from Spent Lead‐Acid Battery for Next‐Generation Lead‐Carbon Battery

Yuchen Hu; Jiakuan Yang; Jingping Hu; Junxiong Wang; Sha Liang; Huijie Hou; Xu Wu; Bingchuan Liu; Wenhao Yu; Xiong He; R. Vasant Kumar

Journal of Applied Electrochemistry | 2016

A study on Pb2+/Pb electrodes for soluble lead redox flow cells prepared with methanesulfonic acid and recycled lead

Jinxin Dong; Xu Wu; Yuan Chen; Nigel P. Brandon; Xiaohong Li; Jiakuan Yang; Jiangwei Yu; Wei Zhang; Yuchen Hu; Wenhao Yu; Junxiong Wang; Sha Liang; Jingping Hu; Huijie Hou; Binchuan Liu; Changzhu Yang

Journal of The Electrochemical Society | 2018