Commonly, arsenic-bearing gold ore is very refractory. Therefore, it is necessary to break these ores up to the gold particle size or decompose them to make gold exposed before leaching. The process such as decomposition and crushing prior to leaching is called pretreatment of refractory gold ore. Recently, many researchers have studied the pretreatment of gold bearing arsenopyrite to expose gold and remove arsenic by changing the mineral composition, electrochemical and physicochemical properties of gold ore.
There are many pretreatment methods of refractory gold ores including roasting oxidation, bacterial oxidation, pressure oxidation and chemical pretreatment. Particularly, the chemical treatment methods are widely used due to its low cost. Among them, alkaline pretreatment is considered to be the most economical and eco-friendly. However, this method is not widely used due to the dependence of alkaline concentration, temperature and pressure.
Recently, ultrasound has been widely used to accelerate the speed of chemical reaction. Many researchers have already studied the effects of ultrasound on gold and zinc extraction, on copper extraction from copper ore, on leaching of phosphate using hydrochloric acid, and on sulfuric acid leaching of colemanite. However, the effects of ultrasonic power and intensity of mechanical agitation on leaching of minerals are rarely involved.
Hong Won Chol, a researcher at the Faculty of Mining Engineering, has investigated the effect of the ultrasonic power and mechanical agitation intensity of pulp on alkaline pretreatment of gold-bearing arsenopyrite.
He studied the effect of the pulp temperature on the leaching efficiency in alkaline pretreatment of arsenopyrite under both ultrasonic and non-ultrasonic conditions. Compared with the non-ultrasound condition at the temperature of 60℃, arsenic extraction and gold extraction increased by 20 % and 14.4 %, respectively, in the presence of ultrasound at ambient temperature.
You can find more information in his paper “Effects of Ultrasonic Power and Intensity of Mechanical Agitation on Pretreatment of a Gold-Bearing Arsenopyrite” in “Archives of Acoustics” (SCI).
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