Litcius/Paper detail

Pre-concentration of quartz from sea sand through superconducting high gradient magnetic separation technology

Yongkui Li, Suqin Li, Xiaodong Pan, Xin Zhao, Penghui Guo

2022Separation Science and Technology16 citationsDOI

Abstract

In this study, a superconducting high gradient magnetic separation (S-HGMS) technology was used to separate and extract quartz from sea sand. Under optimal conditions (i.e., a magnetic flow ratio of 0.085 T·s/m, slurry flow velocity of 400 ml/min, and pulp concentration of 40 g/L), the SiO2 grade increased from 79.45% of the raw material to 91.35% of quartz concentrate, and the removal rate of Al and Fe reached 91.97% and 82.10%, respectively. Weakly magnetic particles in sea sand were selectively transformed to tailings, and the pre-concentration of quartz was achieved under a high magnetic field intensity. The high magnetic field intensity and mineral magnetic differences were the critical factors influencing the magnetic separation of quartz from sea sand. The S-HGMS technology achieved effective pre-concentration of quartz from sea sand, reducing the handling capacity and providing a high-quality material for subsequent quartz refinement processes.

Topics & Concepts

QuartzMagnetic separationSlurryChemistryVolumetric flow rateMagnetic fieldTailingsMineralogyMetallurgyComposite materialMaterials sciencePhysical chemistryQuantum mechanicsPhysicsMinerals Flotation and Separation TechniquesMethane Hydrates and Related PhenomenaMine drainage and remediation techniques