Iron ore slimes beneficiation using optimised hydrocyclone
2022.8.1 A novel hydrocyclone design fabricated and tested for iron ore slimes beneficiation. • Optimised performance found with 10° cone of novel cyclone for silica slurry. • Air-core elimination by rod insertion results an adverse effect on its separation. •
MoreIron ore slimes beneficiation using optimised hydrocyclone
2022.8.1 Therefore, this work is aimed to experimentally study the iron ore slime beneficiation using a novel 100 mm hydrocyclone (with small cone angle, tapered
MoreBeneficiation of Iron Ore Slimes using Optimized
2015.3.12 Beneficiation is the process of separating iron ore from the gangue particles like alumina, silica. Increasing the iron ore demand, with the faster depletion of
MoreIron ore slimes beneficiation using optimised hydrocyclone
2022.4.1 Chemically treated iron ore slime is suitable for iron production using blast furnace whereas the elemental iron produced by electrowinning can be used
MoreIron ore slimes beneficiation using optimised hydrocyclone
The marginally varying density components (iron oxide and alumina particles) of iron ore slimes can be separated by hydrocyclones based on size and density. Therefore, this
MoreUtilization of iron ore slime and bottom ash: An overview
2021.1.1 The promising areas for utilization of Iron Ore Slime and Bottom Ash are the making of bricks (constructional, insulation), use as bed filter materials, and Ferro /
MoreBeneficiation of High-alumina Bearing Iron-ore Slime: A Case
ABSTRACT. A typical high-alumina containing iron ore slime from the eastern Indian sector containing 58.13% Fe, 6.48% SiO 2, 4.9% Al 2 O 3, and 5.35% LOI, have been
MoreModeling and Optimisation of Spiral Concentrator for
2020.7.23 Iron ore concentrate suitable for pelletisation was also produced using multi-gravity separator (Rao et al. 2018). Beneficiation of iron ore slimes to produce a
MoreRecovery of Iron Values from Discarded Iron Ore Slimes
2019.8.8 In the present study, an iron ore slime sample containing 56.1% Fe was investigated using physical beneficiation, carbothermal reduction, and a microwave
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