Flocculants and Modifiers for More Efficient Flotation and Processing of Coal Sludge

IF 0.4 Q4 ENGINEERING, CHEMICAL Coke and Chemistry Pub Date : 2024-05-13 DOI:10.3103/S1068364X24600064
V. N. Petukhov, N. Yu. Svechnikova, S. V. Yudina, D. V. Yudin
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Abstract

Improvement in the efficiency of sludge flotation and processing in coal enrichment by appropriate selection of flocculants and modifiers is considered. Zh coal fines (with a high content of small classes) from the Chertinsk mine (Kuznetsk Basin) enriched at Belovskaya enrichment facility are investigated, with 19.5% ash content. The flocculants employed are acrylamide copolymers: Magnаfloc 380 (М-380), Magnаfloc 10 (М-10), Magnаfloc 525 (М-525), and Magnаfloc 345 (М-345). Their performance is compared with that of widely used flocculants (VPK and KSP polyelectrolytes and Technofloc-TL 1597). Neonol (oxyethylated nonylphenol), which is an effective modifier, is also employed; it consists of a mixture of isomers. The action of flocculants and the subsequent modifier on the coal fines is analyzed on the basis of theoretical and experimental data. Sedimentation analysis shows that anionic Magnаfloc М-10 is the most effective flocculant for positively charged coal dispersions. The flotation efficiency is improved for coal fines treated with Magnаfloc М-10 and then Neonol modifier. Quantum chemical modeling by means of HyperChem software establishes the interaction of Neonol with the polar centers of model compounds in the coal’s organic mass (forming hydrogen bonds) and with the polar centers of Magnаfloc М-10. Analysis of the coal’s flotation properties confirms that the coal surface becomes hydrophobic after flocculation of the coal fines and subsequent treatment with Neonol modifier. After flocculation of the coal sludge and subsequent treatment with Neonol, the concentrate yield in flotation is increased by 2.4%, while its ash content is decreased by 0.3%.

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提高煤泥浮选和处理效率的絮凝剂和改性剂
研究考虑通过适当选择絮凝剂和改性剂来提高煤炭富集过程中的污泥浮选和处理效率。研究了在 Belovskaya 浓缩设施浓缩的 Chertinsk 煤矿(库兹涅茨克盆地)的 Zh 煤粉(小颗粒含量高),灰分含量为 19.5%。使用的絮凝剂是丙烯酰胺共聚物:Magnаfloc 380 (М-380)、Magnаfloc 10 (М-10)、Magnаfloc 525 (М-525) 和 Magnаfloc 345 (М-345)。它们的性能与广泛使用的絮凝剂(VPK 和 KSP 聚电解质以及 Technofloc-TL 1597)进行了比较。此外,还使用了一种有效的改性剂 Neonol(氧乙基壬基酚),它是一种异构体混合物。根据理论和实验数据分析了絮凝剂和后续改性剂对煤粉的作用。沉降分析表明,阴离子 Magnаfloc М-10 是对带正电的煤分散体最有效的絮凝剂。先用 Magnаfloc М-10,再用 Neonol 改性剂处理煤粉,可提高浮选效率。利用 HyperChem 软件进行的量子化学建模确定了 Neonol 与煤有机质中模型化合物的极性中心(形成氢键)以及 Magnаfloc М-10 的极性中心之间的相互作用。对煤炭浮选特性的分析表明,在絮凝煤粉并随后使用 Neonol 改性剂处理之后,煤炭表面变得疏水。煤泥经过絮凝和 Neonol 处理后,浮选精矿产率提高了 2.4%,灰分含量降低了 0.3%。
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来源期刊
Coke and Chemistry
Coke and Chemistry ENGINEERING, CHEMICAL-
CiteScore
0.70
自引率
50.00%
发文量
36
期刊介绍: The journal publishes scientific developments and applications in the field of coal beneficiation and preparation for coking, coking processes, design of coking ovens and equipment, by-product recovery, automation of technological processes, ecology and economics. It also presents indispensable information on the scientific events devoted to thermal rectification, use of smokeless coal as an energy source, and manufacture of different liquid and solid chemical products.
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