Spiral Concentrator Performance Data for Multi-Component Particle Separation
by Prudhvinath Reddy Ankireddy·Updated 1mo ago
5.8 MB3files
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Description
Experimental data from an industrial-scale spiral concentrator treating bi-component and multi-component feeds. The investigation presents size-wise and mass-wise recovery of minerals at various feed concentrations, including magnetite, silica, and low-grade chromite ore. The dataset, authored by Prudhvinath Reddy Ankireddy and last updated in May 2026, is 5.8 MB and includes PDF, DOCX, and TIF files.
Use Cases
Modeling particle segregation patterns based on size and density differences described in the study.
Analyzing the effect of hindered settling and mineral liberation on recovery rates.
Comparing separation efficiency between bi-component and multi-component systems.
Investigating the misplacement of coarse and fine particles in non-designated zones of the spiral trough.
Strengths
Includes data from an industrial-scale spiral concentrator, suggesting real-world applicability.
Compares bi-component (magnetite & silica) and multi-component (chromite ore) systems.
Examines size-wise and mass-wise recovery across varying feed concentrations.
Limitations
Column-level documentation is absent; field semantics must be inferred after download.
Row count is unknown, which may limit suitability assessment.
Data files are in PDF, DOCX, and TIF formats, requiring extraction for computational analysis.
Provenance
Source
figshare
Collection Method
Experimental study utilizing an industrial-scale spiral concentrator.