文摘
In this work, boric acid (Hb>3b>BOb>3b>) production from the mineral colemanite (Cab>2b>Bb>6b>Ob>11b>·5Hb>2b>O) with carbon dioxide (COb>2b>) sequestration is investigated. COb>2b>, a known greenhouse gas, is used as a raw material in the leaching of boric acid from colemanite, and the residual calcium is converted into the thermodynamically stable carbonate form. Experiments are carried out in a high pressure stainless steel reactor equipped with stirring and ultrasonic mixing. The solid/liquid ratio is kept at 0.1 g/mL considering the solubility of boric acid extracted, and two different particle sizes (45 and 75 μm) of colemanite are tested. Reactions were carried out for different reaction times and at 40–70 °C and at 4–12 MPa. Characterization of the products by FTIR, XRD, and TGA confirmed that boric acid is extracted from colemanite and COb>2b> is converted into calcium carbonate. The conversion favorably increases with the addition of COb>2b> pressure up to 8 MPa. The use of 20–25 kHz ultrasound in this heterogeneous reaction increased the extraction efficiency from approximately 70% to 90% due to enhanced mass transfer. COb>2b> storage capacity of colemanite is measured as 0.17 as compared to the theoretical value of 0.21 kg COb>2b>/kg mineral. The utilization of COb>2b> in boric acid production can sequester a significant amount of COb>2b> while improving the environmental performance as compared to traditional sulfuric acid-based processes.