Recovery of copper from deposit of Kola Tembein, Tigray, Ethiopia

One of the most significant sources of copper metal is malachite ore. The world's demand for copper is being positively impacted by increased extraction. However, the chemical compositions of copper in the malachite ore, which vary depending on the region, determine how well copper may be extracted. This study evaluated hydrometallurgical processing of copper metal from malachite ore of Kola Tembein, Tigray, Ethiopia. Malachite ore was processed hydrometallurgical with sulfuric acid to leach copper, which was then recovered using a cementation process of zinc metal. The samples were examined with XRD, EDXRF, SEM, and FAAS. The rock ore sample examined by XRD contained a variety of minerals, including malachite (Cu₂CO₃(OH)₂), quartz (SiO₂), albite Ca-rich (CaAl₂Si₂O₈), albite disorder (NaAlSi₃O₈)m, etc., and the morphology of malachite ore was magnified by SEM. According to the EDXRF results, the malachite ores were dominated by metal oxides of CuO (58.21), SiO₂ (19.21), and Fe₂O₃ (5.32) by weight%. Similar spectroscopic results of malachite were shown for Turkey, China, Chile, and Nigeria malachite. The leaching experiments were optimized by BBD using the RSM to leach and extract malachite at 2.6130 M H₂SO₄, 133.919 µm particle size, 60 °C, and 600 rpm agitation speed, with 98.159% (68,850 mg/L) copper recovered. Using the cementation process, red–brown copper metal was obtained, and waste determined by AAS having very low concentrations of copper ions (1.74 mg/L) and high concentrations of zinc ions (68,850 mg/L). Both the leaching and cementation are best in environmentally and economically, and further purification will be needed to recover zinc from the waste.