煤
洁净煤
重力分离
尾矿
浸出(土壤学)
废物管理
分离过程
化学
粒径
选矿
萃取(化学)
产量(工程)
粉煤灰
热液循环
环境科学
制浆造纸工业
矿物学
化学工程
材料科学
色谱法
冶金
环境工程
有机化学
土壤水分
物理化学
工程类
土壤科学
作者
Santosh Kumar Sriramoju,V. Madhu Babu,Pratik Swarup Dash,Saptarshi Majumdar,Debaprasad Shee
标识
DOI:10.1080/08827508.2020.1833196
摘要
Handling and disposal of high volume of fine coal tailings is a biggest challenge for coal washeries. Separation of clean coal by density separation and flotation shows limited yields of 23–28% and 13–14% respectively. Chemical leaching process has a challenge with the formation of insoluble salts. The present investigation aimed to separate clean coal by a combination of chemical-physical separation technique, i.e. alkaline hydrothermal process followed by density separation. Hydrothermal extraction of humic substance causes dissociation of coal aggregated structure (Mineral-Maceral-Pore structure), thus improves the separation. Experiments performed as per design of experiments and reduced design of experiments, where 100 µ particle size, 50% (w/w) pulp density, 4.5% KOH (w/w), and 140°C reaction temperature found to be optimum, at which 16.2% ash clean coal at 40.7% yield and humic acid by-product at 18.3% yield were obtained. Use of swelling agent such as tetrahydrofuran shown negative impact on clean coal recovery. Material balance and cost data were presented to show the techno-commercial viability of this technology.
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