João Marreiros, Yuxiang Wang, MinGyu Song, William J. Koros, Matthew J. Realff, Christopher W. Jones, Ryan P. Lively
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引用次数: 0
Abstract
Increasing demand for high-purity fine chemicals and a drive for process intensification of large-scale separations have driven significant work on the development of highly engineered porous materials with promise for sorption-based separations. While sorptive separations in porous materials offer energy-efficient alternatives to longstanding thermal-based methods, the particulate nature of many of these sorbents has sometimes limited their large-scale deployment in high-throughput applications such as gas separations, for which the necessary high feed flow rates and gas velocities accrue prohibitive operational costs.