在硫化镍矿浮选中利用磷酸化淀粉作为蛇纹石的选择性抑制剂

IF 4.9 2区 工程技术 Q1 ENGINEERING, CHEMICAL Minerals Engineering Pub Date : 2024-09-06 DOI:10.1016/j.mineng.2024.108906
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引用次数: 0

摘要

蛇纹石是浮选富集辉锑矿的主要煤矸石。本研究通过磷酸钠与淀粉的酯化反应合成了磷化淀粉(PS),并将其用作浮选分离辉锑矿和蛇纹石的抑制剂。微浮选结果表明,与苛化淀粉(CS)相比,PS 对蛇纹石具有更优越的选择性抑制作用。正如 zeta 电位测量和 DLVO 计算所证明的那样,五棱石和蛇纹石之间的静电排斥阻断了它们之间的异相凝结。吸附实验表明,聚苯硫醚选择性地吸附在蛇纹石表面,而不是在戊兰特石表面。X 射线光电子能谱(XPS)和密度泛函理论计算(DFT)的分析结果表明,PS 通过螯合作用强烈吸附在蛇纹石(镁活性位点)表面(0 0 1),形成磷-氧-镁(P-O-Mg)键,而不是吸附在戊兰特石上。总之,在蛇纹石硫化矿的浮选过程中,PS 可被视为一种有效的选择性抑制剂。
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Utilization of phosphorylated starch as a selective depressant for serpentine in the flotation of nickel sulfide ore

Serpentine is the primary gangue for the flotation enrichment of pentlandite. In this study, phosphorylated starch (PS) was synthesized via the esterification reaction of sodium phosphate with starch and employed as the depressant in separating pentlandite and serpentine through flotation. Micro-flotation results indicated that PS exhibited superior selective depressing effects on serpentine compared to causticized starch (CS). Electrostatic repulsion between pentlandite and serpentine interrupted their hetero-coagulation, as demonstrated by zeta potential measurements and DLVO calculations. Adsorption experiments demonstrated that PS selectively adsorbed onto the serpentine surface rather than on the pentlandite surface. The analysis result of X-ray photoelectron spectroscopy (XPS) and density functional theory calculations (DFT) suggested that PS strongly adsorbed onto the serpentine (magnesium active sites) surface (0 0 1) through chelation, forming phospho-oxygen-magnesium (P-O-Mg) bonds, instead of adsorbing on pentlandite. In conclusion, in the flotation process of sulfide ores from serpentine, PS may be regarded as an effective and selective depressant.

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来源期刊
Minerals Engineering
Minerals Engineering 工程技术-工程:化工
CiteScore
8.70
自引率
18.80%
发文量
519
审稿时长
81 days
期刊介绍: The purpose of the journal is to provide for the rapid publication of topical papers featuring the latest developments in the allied fields of mineral processing and extractive metallurgy. Its wide ranging coverage of research and practical (operating) topics includes physical separation methods, such as comminution, flotation concentration and dewatering, chemical methods such as bio-, hydro-, and electro-metallurgy, analytical techniques, process control, simulation and instrumentation, and mineralogical aspects of processing. Environmental issues, particularly those pertaining to sustainable development, will also be strongly covered.
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