Activation of silicon in the electrolytic manganese residue by mechanical grinding-roasting

• Published in: Journal of cleaner production Vol. 192; pp. 347 - 353
• Main Authors: Li, Jia, Du, Dongyun, Peng, Qiuju, Wu, Chenjie, Lv, Kangle, Ye, Hengpeng, Chen, Shaohua, Zhan, Wei
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 10.08.2018
• Subjects: Activation; Effective silicon; Electrolytic manganese residue (EMR); Sodium roasting; Sodium roasting; Electrolytic manganese residue (EMR); Activation; Effective silicon
• ISSN: 0959-6526; 1879-1786
• DOI: 10.1016/j.jclepro.2018.04.184

Electrolytic manganese residue (EMR) is a solid waste containing several potentially harmful substances, which could pose severe environmental problems. The EMR also contains a large amount of silicon in the form of quartz that cannot be really absorbed by plants. Plants can only absorb effective silicon, hence, an increase in the content of the effective silicon is of great importance from the viewpoint of EMR utilization. In this study, silicon activation in EMR was systematically carried out by coupling mechanical grinding and roasting. The effects of particle size, Na2CO3/SiO2 mass ratio, roasting temperature, and time on the recovery rate of the active silicon were analyzed. The experimental results of mechanical activation show that the content of the effective silicon gradually increased with the ball milling time. After grinding, the samples was then roasted with Na2CO3 and the content of the effective silicon increased from 0.19% in the raw EMR to 12.59% in the activated RMR as the mass ratio of Na2CO3 to SiO2 was 1:0.5, roasting temperature is 900 °C, and the roasting time is 120 min. Mechanical activation can cause lattice distortion, while roasting with additives leads to the breakage of SiO bonds; consequently, the silicate minerals become disordered and amorphous and can be easily absorbed by vegetation. Results of toxicity leaching tests revealed that the coupling method not only resulted in activation of silicon, but also facilitated the solidification of heavy metals, both promote the safe utilization of EMR. •Mechanical grinding-roasting coupling method is applied to largely activate the silicon in EMR.•The effective silicon content can be increased from 0.19% to 12.59%.•Explains the activation mechanism of the effective silicon.•The coupling method not only results in the activation of silicon, but also facilitates the solidification of harmful heavy metals.•This study proposed an effective method for safe utilization of EMR.