关键词: 水热还原, 铬酸钾, 氧化铬, 粒径调控

Abstract: Preparation of ultrafine chromia particles by hydrothermal reduction and size control was investigated. With CO2 as acidifying agent, potassium chromate was directly reduced to chromic oxide hydrate under hydrothermal conditions using formaldehyde as reducing agent. In addition some surfactants, such as TPP, PAM, PEG-600, PVP etc., were added to the system to control particle size for the first time. Then chromic oxide hydrate was converted into ultrafine spheral Cr2O3 particles by calcination at 800℃. The effects of the mole ratio of formaldehyde to chromate (Rm), the initial partial pressure of CO2 (pCO2), the isothermal temperature (Tiso) and time (tiso) on the conversion of Cr(VI) were also studied in detail and the optimum technological conditions were suggested. The conversion rate of Cr(VI) was 99.9% under the optimum conditions and the average particle size of spheral Cr2O3 was about 100 nm. The experimental results showed that surfactants were useful for controlling particle size and morphology. The new process showed a promising application prospect as the technique, economy and simpleness were concerned.

Key words: hydrothermal reduction, potassium chromate, chromia, size control