Economic heavy minerals in the stream sediments of wadi Shaàb, southern coast of the Red Sea, Egypt; characterization and upgrading for investigation of their potential recovery-Reference-Cited by-同舟云学术

Economic heavy minerals in the stream sediments of wadi Shaàb, southern coast of the Red Sea, Egypt; characterization and upgrading for investigation of their potential recovery

Published:2024-04-23 Issue: Volume: Page:1-1
ISSN:0026-4563
Container-title:Bulletin Of The Mineral Research and Exploration
language:en
Short-container-title:Bull.Min.Res.Exp.

Author:

Fawzy Mona¹^ORCID,Bayoumi Mustafa¹^ORCID,Shahin Hassan²^ORCID,Emad Bahaa²^ORCID,El Shafey Abdel Hay²^ORCID,Abdel-azeem Marwa²^ORCID,Ismail Ahmed²^ORCID,El-moghazy Asmaa³^ORCID,Diab Mohamed¹^ORCID

Affiliation:

1. Nuclear Materials Authority, P. O. Box 530, Maadi, Cairo, Egypt.

2. Nuclear Materials Authority, P. O. Box 530, Maadi, Cairo, Egypt

3. Geology Department, Faculty of Science, Helwan University, Ain Helwan, 11795, Cairo, Egypt.

Abstract

The southern coast of the Red Sea is one of the most promising areas for the occurrence of economic minerals. Therefore, studying the characterization and evaluation of these minerals in the Wadi Shaàb Quaternary sediments and investigating their ability to concentrate and physically separate using economical and ecofriendly techniques is the main goal of this work. The results showed that the representative sample contains an average of 0.06% ilmenite, 0.08% zircon, 0.07% rutile, 0.07% leucoxene, 0.008% cassiterite, 0.004% xenotime, 0.0004% monazite, 0.022% almandine garnet, and 0.46% magnetite. The recovery of economic heavy minerals was applied using a combination of wet-gravity technique via shaking table and magnetic separation using high intensity magnetic separator. The results demonstrated the success of gravity separation in raising the grade from 7.63% to 45.03% in a yield of 13.74% out of the original sample, and also valuable metallurgical recoveries that greater than 89% for tabling multi-stages (rougher and scavenging) was obtained. Concentrated mineral fractions of magnetite, ilmenite, almandine, heavy silicates, and the non-magnetic fraction bearing zircon and rutile were obtained using a high intensity magnetic separator at different ampere range

Funder

The authors gratefully acknowledge the support and assistance provided by our institution (Nuclear Materials Authority).

Publisher

Bulletin of the Mineral Research and Exploration

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