Mineral Processing
Mona Mohamed Fawzy; Mahinaz Shawky; Ahmed Ismail; Mostafa Bayoumi; Hassan Shahin; Bahaa Emad; Ahmed Orabi; Gehan Ali; Ahmed Abdelmouty; Mohamed Diab
Abstract
In response to rising global demand for critical minerals and the need for environmentally responsible resource utilization, this study explores sustainable recovery methods from low-grade placer deposits in the Wadi Rahba area along the Southern Coast of the Red Sea of Egypt. The focus is on the beneficiation ...
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In response to rising global demand for critical minerals and the need for environmentally responsible resource utilization, this study explores sustainable recovery methods from low-grade placer deposits in the Wadi Rahba area along the Southern Coast of the Red Sea of Egypt. The focus is on the beneficiation of ilmenite and titanite as primary valuable minerals. Twenty-eight samples, including a composite technology sample, were analysed using XRD, SEM-EDX, and ED-XRF techniques. Results indicate that total heavy mineral (THM) content ranges from 4.5% to 17.7%, averaging approximately 10%, with 11% in the composite sample. Identified valuable minerals include titanite, ilmenite, leucoxene, zircon, magnetite, and rutile, alongside high concentrations of heavy silicate minerals such as epidote, pyroxene, and amphiboles. Estimated contents are 0.44 wt.% titanite, 0.15 wt.% ilmenite, and trace amounts of zircon (0.04 wt.%), spessartine (0.01wt.%), and magnetite (0.29 wt.%). To enhance recovery, a combination of gravity separation (Wilfley shaking table) and magnetic separation techniques (LIMS and HIMS) were applied. These methods effectively concentrated titanite and ilmenite, achieving recovery rates of 85.08% and 79%, respectively. The findings highlight the potential for economically viable extraction from low-grade sources using environmentally sustainable physical upgrading techniques.
Mineral Processing
M. Diab; M. Abu El Ghar; I. Mohamed Gaafar; A. H. Mohamed El Shafey; A. Wageh Hussein; M. Mohamed Fawzy
Abstract
In this work we are concerned with the potentiality of using mineral processing for raising the grade of the valuable heavy minerals (VHMs) from the Quaternary stream sediments of Wadi and Delta Sermatai located on the southern coast of the Red Sea, Egypt. A rigorous understanding of the chemical and ...
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In this work we are concerned with the potentiality of using mineral processing for raising the grade of the valuable heavy minerals (VHMs) from the Quaternary stream sediments of Wadi and Delta Sermatai located on the southern coast of the Red Sea, Egypt. A rigorous understanding of the chemical and mineralogical characteristics of the studied samples is a prerequisite for the selection and development of the physical processing used in order to produce a high-grade concentrate. For this purpose, the grain size distribution analysis, heavy liquid separation tests as well as XRF, and SEM analysis are performed. The magnetite, ilmenite, garnet, zircon, rutile, apatite, sphene, pyrolusite, celestine, and heavy green silicates are the valuable heavy minerals recorded in the studied samples; but their quantity varies between Wadi and Delta. The upgrading experiments are performed via a shaking table in conjunction with the low and high-intensity magnetic separator in order to obtain the high-grade concentrates from the valuable heavy minerals, and after applying the optimum separation conditions, the total heavy mineral (THM) assay increase from 8.32% to 46.04% for Wadi Sermatai, while for Delta Sermatai increase from 8.37% to 50.13% into 8.89% and 9.59%, respectively, by mass yield. The THM recovery values reach 66.84% for Wadi Sermatai and 67.23% for Delta Sermatai. After the results of the chemical analysis of the concentrates, it is proved that the Sermatai area is considered as a potential source for some economic elements such as Fe, Ti, Zn, Zr, Cr, V, and Sr.
