Effects and Mechanism of Fe3+ on Flotation Separation of Feldspar and Epidote with Sodium Oleate at Natural pH

Zeng, Weiwei; Zhang, Guofan; Shi, Qing; Ou, Leming

doi:10.3390/separations9050110

Cited by 5 publications

(2 citation statements)

References 27 publications

(29 reference statements)

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“…Espiritu et al (2019) also used DFT simulation to study the effect of dissolved ions in dolomite on the flotation of monazite, and found that Ca 2+ and Mg 2+ ions reduced the floatability of monazite due to the adsorption of calcium carbonate or magnesium hydroxide on monazite and the precipitation of calcium or magnesium oleate. and Zeng et al (2022) found that adding a small amount of Fe 3+ to the pulp before SOH can significantly improve the flotation of fine monazite. This is because the addition of Fe 3+ promotes the adsorption of SOH and greatly improves the hydrophobicity of the surface of monazite.…”

Section: Introductionmentioning

confidence: 99%

Study on the mechanism of action of various metal ions on the surface of monazite

Liu,

Yang,

et al. 2024

Physicochem. Probl. Miner. Process.

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By studying the various metal ions released from the grinding process, and conducting the flotation test of monazite and symbiotic ore, using zeta potential measurements and FTIR infrared spectrum analysis methods, the influence of metal ions on the surface of monazite and the mechanism of action are obtained. The results showed that the main metal ions in the flotation environment of monazite are Ca2+, Ba2+, and Fe3+. When the pulp pH value was 8, Ca2+, Fe3+, and Ba2+ concentration was 3×10-4 mol/dm3, 3×10-5 mol/dm3, and was 2×10-4 mol/dm3 respectively, and OHA collector dosage was 5×10-4 mol/dm3, while the flotation recoveries of monazite, calcite. And fluorite was above 95 %, 40.43 %, and below 45.32 %, and the recovery rate of barite and bastnaesite in the presence of Ca2+ and Fe3+ is below 54.32 % and 38.68 %, respectively and the effective separation of monazite and symbiotic ore was obtained. The zeta potential measurements showed that when only metal ions are added to monazite, monazite (IEP) shifts to the right, and the negative charge on the surface of monazite decreases, which may be due to the positive charge of metal ions adsorbed on the surface of monazite, increasing the positive charge on the surface of monazite. When Ca2+, Ba2+, Fe3+, and OHA were added to the monazite pulp, the IEP of monazite moved to the left, and the negative charge of monazite shifted to the positive direction as a whole, indicating that Ca2+, Ba2+, and Fe3+ were adsorbed on the surface of monazite and increase the positive charge on the surface of monazite. When the pH value was 7 ~ 10, the surface of monazite was the same as that before and after the action of the agent, and both were negatively charged. At this time, OHA can still adsorb on the calcite, that was, the chemical affinity overcomes the same electric repulsion and adsorbs, so that the potential of the monazite after the action is reduced, which is chemical adsorption. The FTIR showed that when the metal ions Ca2+, Ba2+, and Fe3+ are added to activate the surface of monazite, the peak area of the organic functional group-CH2−CH3 at 3000-2800 cm−1 was enhanced, and a new peak appears at 1382 cm−1. The reason is that the N-O-H functional group of OHA collector was adsorbed on the surface of monazite, and a red shift (44 cm−1) occurs, and a new peak appears at 1454 cm−1. The reason is that the C-N functional group of OHA collector is adsorbed on the surface of monazite. The lone electron pair of the nitrogen atom of the amide group in the OHA forms chelates with Ca2+, Ba2+, and Fe3+ atoms, which further increases the adsorption amount of OHA. This showed that the adsorption of monazite surface by metal ions provides active sites for the adsorption of OHA collectors. These phenomena indicate that the adsorption capacity of OHA on the surface of monazite activated by Ca2+, Ba2+, and Fe3+ is enhanced and a stable five-membered ring metal chelate is formed. Combined with flotation results and zeta potential data, infrared spectroscopy analysis, the adsorption capacity of Ca2+, Ba2+, and Fe3+ activated monazite surface: Fe3+>Ca2+>Ba2+.

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Section: Introductionmentioning

confidence: 99%

Study on the mechanism of action of various metal ions on the surface of monazite

Liu,

Yang,

et al. 2024

Physicochem. Probl. Miner. Process.

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“…Solution chemistry calculations and adsorption measurements reveal that, in the flotation process of sodium feldspar, Fe 3+ ions bind to the feldspar surface as ferric hydroxide. Moreover, the Fe 3+ can modify the metallic bond characteristics of the feldspar surface, thereby facilitating the adsorption of sodium oleate (NaOL) onto the mineral surface via its carboxylate groups (Zeng et al, 2022).…”

Section: Introductionmentioning

confidence: 99%

The effect of Al(III) and Fe(III) ions on the flotation behavior of k-feldspar with sodium oleate as the collector

Yi,

Zhou,

et al. 2023

Physicochem. Probl. Miner. Process.

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The present study investigates the effects and mechanisms of aluminum (Al(III)) and iron (Fe(III)) ions on the flotation efficiency of potassium feldspar (K-feldspar) within oleate collector systems. The study employs micro-flotation experiments, solution chemistry calculations, zeta potential measurements, and FT-IR and XPS analyses to demonstrate that Al(III) and Fe(III) ions can significantly improve the flotation recovery of K-feldspar by altering its surface charge, bonding properties, and adsorption modes. The study also develops adsorption models for the flotation of K-feldspar activated by Al(III) and Fe(III), revealing the synergistic impacts of metal ion hydrolysis products and sodium oleate in the formation of hydrophobic complexes.

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Hardness of surface hydroxyls and its pivotal role in the flotation of cassiterite from quartz via lead ions activation

Miao,

He,

Zhu

et al. 2024

Separation and Purification Technology

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Effects and Mechanism of Fe3+ on Flotation Separation of Feldspar and Epidote with Sodium Oleate at Natural pH

Cited by 5 publications

References 27 publications

Study on the mechanism of action of various metal ions on the surface of monazite

Study on the mechanism of action of various metal ions on the surface of monazite

The effect of Al(III) and Fe(III) ions on the flotation behavior of k-feldspar with sodium oleate as the collector

Hardness of surface hydroxyls and its pivotal role in the flotation of cassiterite from quartz via lead ions activation

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