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Author: search.filters.author.Premaratne, W.A.P.J.Subject: search.filters.subject.Leaching kinetics

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    Extraction of copper from copper bearing sulfide ores (chalcopyrite) by oxidative chemical leaching
    (Faculty of Science, University of Kelaniya, Sri Lanka, 2016) Premaratne, W.A.P.J.; Dharmarathna, A.C.S.
    The extraction of copper from primary copper sulfide ores is much complicated and expensive. However, the successful metal extraction from natural mineral resources is very important, both environmentally and economically. The main objectives of this research work are to examine possible ways to increase the copper extraction from chalcopyrite (CuFeS2) using oxidative chemical leaching processes and to investigate oxidative leaching kinetics of chalcopyrite in sulfuric (H2SO4) acid medium. Chalcopyrite mineral sample was obtained from Geological Survey and Mines Bureau (GSMB) in Sri Lanka. Initial investigations characterized the chalcopyrite ore mineralogically and chemically. X-ray diffraction analysis of chalcopyrite ore reveled that only chalcopyrite (CuFeS2), azurite (Cu3(CO3)2(OH)2), pyrite (FeS2) and pyrrhotite (FeS) minerals were present. The copper content of the chalcopyrite ore sample was found to be 16.6% by weight according to the chemical analysis. The extraction of copper from chalcopyrite using hydrogen peroxide (H2O2), ferric sulphate (Fe2(SO4)3), potassium permanganate (KMnO4) and potassium dichromate (K2Cr2O7) oxidizing agents in acid solutions was studied using the 63-90 μm particle size fraction of chalcopyrite. The effect of temperature ranging from 30 ºC to 70 ºC, the effect of concentration of sulfuric acid ranging from 0.25 mol dm-3 to 5.0 mol dm-3 and the effect of pulp density ranging from 2% to 6% on the rate of dissolution of copper from chalcopyrite ore were also studied. The extraction rates are significantly influenced by the temperature and the concentration of the acid solutions. According to the oxidative chemical leaching results, the maximum extraction of copper was achieved with KMnO4 and then with K2Cr2O7, followed by H2O2 and Fe2(SO4)3. In this study maximum extraction of 70.2 % of copper was achieved at 0.1 mol dm-3 KMnO4 in 1.0 mol dm-3 H2SO4 acid. It was found that oxidizing agents improved the leaching kinetics of chalcopyrite in sulfuric acid medium saving both time and energy effectively and efficiently. A kinetic study showed that the dissolution of copper from chalcopyrite ore was controlled by chemical reaction process on the surface of particles. Based on the results obtained in this investigation, the apparent activation energy for the dissolution of copper using the Arrhenius expression was found to be 31.8 kJ mol-1.
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    Microwave Assisted Dissolution of Sri Lankan Ilmenite: Extraction and Leaching Kinetics of Titanium and Iron Metals
    (University of Kelaniya, 2014) Premaratne, W.A.P.J.; Rowson, N.A.
    The kinetics of the leaching of titanium and iron from Sri Lankan ilmenite in a sulphuric acid medium heated by microwave energy is studied. The effects of the concentration of sulphuric acid, reaction temperature and particle size on the kinetics of dissolution of ilmenite are investigated. Results show that both the acid concentration and the temperature have significant effects on the rate of dissolutions of titanium and iron from ilmenite. The dissolution of both titanium and iron from ilmenite was controlled by a chemical reaction on the surface of ilmenite particles. Maximum extractions of 74.2 (±1.1) % of titanium and 71.3 (±0.8) % of iron from the ilmenite ore were achieved using a microwave leaching system of 600 W, 2.45 GHz. Experimental results further showed that the apparent activation energies for the dissolution of titanium and iron were 137 kJ mol-1 and 117.1 kJ mol-1 respectively. Therefore, microwave energy has a potential for the speedy and efficient leaching of ilmenite and in a commercial context it can be used as a more economical and environmental friendly process. The results of the mineralogical and chemical analysis studies for the ilmenite ore indicated that both ilmenite (FeTiO3) and pseudorutile (Fe2Ti3O9) minerals were present with a grade of 37.9% titanium.