Abstract

New data have been obtained on the influence of the conditions of modification of Matrimid 5218 asymmetric hollow fibers by direct gas-phase fluorination directly in laboratory membrane modules on their gas separation properties. It has been shown that direct gas-phase fluorination significantly increases the selectivity of gas separation, in particular, for the He/CH4 pair. Stability of the fluorination effect has been studied for a long time (up to 10 years). It is noted that over the first days after modification, the modules modified using an He/F2 mixture with a high F2 content (10 vol %) exhibit the greatest ideal He/CH4 selectivity (~8000). However, a high degree of fluorination leads to the degradation of hollow fiber membranes in the module with time, whereas fluorination with a mixture with a low F2 content (2 vol %) also results in a high He/CH4 selectivity of the modified membranes (~800), which increases to 4600 with time, the thin selective layer remaining undamaged. The mathematical modeling of the single-stage process of helium recovery from natural gas using modified hollow fiber membranes on the basis of Matrimid 5218 shows a high potential for their practical application in this field.