期刊
JOURNAL OF MEMBRANE SCIENCE
卷 530, 期 -, 页码 53-64出版社
ELSEVIER
DOI: 10.1016/j.memsci.2017.01.064
关键词
Membrane gas separation; Unsteady-state; Pulsed retentate; Process intensification; Radial membrane module; Gases high purification
资金
- Russian Foundation of Basic Research [16-38-60174 mol_a_dk, 15-08-05494-a]
- Russian Science Foundation [15-19-10057]
- Ministry of Education and Sciences of the Russian Federation within the framework of the state task in the field of scientific activity [11/17-01.10]
- President of the Russian Federation for early stage researchers [MD- 5415.2016.8]
- Russian Science Foundation [15-19-10057] Funding Source: Russian Science Foundation
The effect of a pulsed retentate flow operation on the gas separation performance of a single membrane module during removal of a fast-permeant impurity from a slow-permeant target component has been studied both theoretically and experimentally. It has been shown that a novel two-step cyclic process promotes a higher driving force for more intense mass transfer due to periodical disturbance of a near-stationary state establishing in the module. Notably, the transmembrane pressure differences is not intentionally affected during the process and remains constant under continuous feed admission and permeate evacuation with negligible fluctuations generated by periodical retentate withdrawals. Opposed to transient permeation processes the separation is based on the permselectivity regardless of whether it is determined by the diffusion selectivity or solubility selectivity. The separation efficiency of a pulsed retentate operation has been compared to that of a steady-state operation depending on the productivity of the process both through the simulation study and the experiments using radial counter-current membrane module for separation of various model mixtures. It has been shown that novel approach may offer substantially higher separation performances in the small-productivity domain as compared to a steady-state operation at the same given value of the product recovery (same productivity).
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