论文信息 - Mathematical modelling of multicomponent membrane permeators

Mathematical modelling of multicomponent membrane permeators

Abstract Mathematical models have been developed for the separation of gas mixtures involving three or more permeable components. The models describe the membrane separation process for five different flow patterns of the permeated and unpermeated stream in the permeator. Numerical solutions of the models have been obtained using the operating conditions usually encountered in life support systems such as CO2 removal from breathing gas. The effects of operating variables such as the pressure ratio across the membrane, the stage cut and the flow patterns in the permeator on the extent of separation have been discussed. A study of multistage separation has also been presented.

[1] K. Kammermeyer,et al. Counter-current and co-current gas separation , 1973 .

[2] H. W. Habgood,et al. Gas separation by permeation Part I. Calculation methods and parametric analysis , 1978 .

[3] S. A. Stern,et al. Analysis of Membrane Separation Parameters , 1969 .

[4] W. P. Walawender,et al. Analysis of Membrane Separation Parameters. II. Counter-current and Cocurrent Flow in a Single Permeation Stage , 1972 .

[5] Stephanie J. Weller,et al. ENGINEERING ASPECTS OF SEPARATION OF GASES. FRACTIONAL PERMEATION THROUGH MEMBRANES , 1950 .

[6] Waldo A. Steiner,et al. Separation of Gases by Fractional Permeation through Membranes , 1950 .

[7] K. Higashi,et al. An Analysis of Gaseous Diffusion Separating Unit , 1961 .

[8] K. Kammermeyer,et al. Separation of Gases by Plastic Membranes - Permeation Rates and Extent of Separation , 1954 .