Consideration of a nitrogen-selective membrane for postcombustion carbon capture through process modeling and optimization

Abstract

The potential of a nitrogen-selective membrane for postcombustion CO2 capture from a coal-fired power plant was investigated in this study. Bi-objective optimization was performed using the nondominated sorting genetic algorithm II (NSGA-II) to simultaneously minimize energy consumption and membrane surface area requirement with targets of >90% CO2 capture and 95% purity. The properties of the nitrogen-selective membrane used in the calculation are based on measurements of nitrogen and hydrogen transport in vanadium at high temperatures (ca. 600°C). The lowest energy consumption was found to be 1.1GJ/metric ton CO2 with a hybrid nitrogen- and CO2-selective membrane system.