APETS改性ZIF-L/PEBA混合基质膜强化渗透汽化分离苯酚研究

As an efficient, energy-saving, and pollution-free chemical separation technology, pervaporation(PV) has great application potential for organic wastewater treatment. In this study, the AZLs were synthesized by modifying two-dimensional ZIF-L with 3-aminopropyltriethoxysilane(APTES). The AZLs were incorporated into the poly(ether-block-amide)(PEBA) to prepare AZLs/PEBA mixed matrix membranes for phenol separation from aqueous solution. The membrane microstructures and physicochemical properties were characterized in detail. Effects of the APTES addition amount, AZLs loading, operating temperature, and feed concentration on separation performance of the membranes were investigated. The AZLs were uniformly dispersed within PEBA matrix, indicating their good interfacial compatibility. The addition of AZLs increased the hydrophobicity and reduced the surface free energy of PEBA membrane, thereby enhancing membrane selectivity. The AZLs/PEBA membrane had a total flux of 2046 g/(m²·h) and a separation factor of 25.4 in separating 1000 mg/kg phenol aqueous solution at 80℃. The AZLs/PEBA membrane also displayed a certain stability. The as-prepared AZLs/PEBA mixed matrix membranes were promising candidates in the phenolic wastewater treatment.