Abstract:Mesoporous silica SBA-15 was synthesized using Saccharomyces Cerevisiae as the biological macroporous templet, and using P123 as the mesoporous phase templet. The novel functional adsorbent G-PA-SBA-15 was prepared using Fe₃O₄ as the iron source, and using PTS and APS as the organic modification group by the functional modification of mesoporous silica SBA-15 after grafting. SEM, XRD and BET were used to characterize the structures of G-PA-SBA-15 and SBA-15, and the effects of pH value, adsorption time, initial concentration of uranium ions and temperature on the adsorption of G-PA-SBA-15 and SBA-15 on uranium were investigated. The results show that the optimal uranium adsorption conditions are as follows: the pH of the solution is 6.0; the adsorption time is 1.0 h; the initial concentration of uranium ions is 20 mg/L and the adsorption temperature is 25 ℃. The adsorption kinetic models and the adsorption isotherm models of G-PA-SBA-15 on uranium were studied. The kinetic models of G-PA-SBA-15 can be described by the pseudo-second-order model well, its correlation coefficient are all above 0.99 (R²>0.99), and isotherm models are fitted to BET adsorption models, indicating that the adsorption process is a multilayer adsorption process.

Key words: mesoporous silica SBA-15; functional modification; uranium; adsorption kinetics; adsorption isotherm