Hydrothermal decomposition of K-feldspar in KOH–NaOH–H2O medium

• Published in: Hydrometallurgy Vol. 156; pp. 47 - 52
• Main Authors: Su, Shuangqing, Ma, Hongwen, Chuan, Xiuyun
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.07.2015
• Subjects: Crystallization; Decomposition; Dissolution; Expansion; Hydrometallurgy; Hydroxyl-cancrinite; K-feldspar; Kalsilite; Moles; Decomposition; K-feldspar; Kalsilite; Hydroxyl-cancrinite
• ISSN: 0304-386X; 1879-1158
• DOI: 10.1016/j.hydromet.2015.05.014

The hydrothermal decomposition of K-feldspar in mixed alkaline solutions containing NaOH and KOH at a concentration of 8.5M was studied. As the mole fraction of KOH (xKOH=KOH/(KOH+NaOH) in mole) in the mixed alkaline solution decreased, metastable kalsilite, kalsilite and hydroxyl-cancrinite crystallized progressively at 240°C. The metastable kalsilite disappeared when reaction temperature increased from 240°C to 280°C, while the crystallization zone of kalsilite was extended from xKOH=0.8–0.3 to xKOH=1.0–0.4, and the crystallization zone of hydroxyl-cancrinite was enlarged from xKOH=0 to xKOH=0.2–0. The K-feldspar dissolved under the action of OH− and released K+, Al(OH)4− and H2SiO42−. The kalsilite or hydroxyl-cancrinite was precipitated from solution. •Hydrothermal decomposition experiments of K-feldspar in KOH–NaOH mixed solution were studied.•Decomposition products depended on compositions of mixed alkaline solution and temperature.•Higher NaOH concentration was beneficial to increase crystal size.•The conversion of K-feldspar to kalsilite or hydroxyl-cancrinite was a dissolution–precipitation process.