Journal ArticleDOI
Hollow fiber gas permeator with countercurrent or cocurrent flow: series solutions
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In this article, a series solution technique is developed to express each product composition and the pressure ratio as a power series in terms of a dimensionless membrane area for shell side constant-pressure feed flow.Abstract:
The problems in the numerical solution of boundary value problems encountered in hollow fiber binary gas permeatbrs having cocurrent or countercurrent permeate flow with axial pressure drop inside the fiber bore are discussed. A series solution technique is developed to express each product composition and the pressure ratio as a power series in terms of a dimensionless membrane area for shell side constant-pressure feed flow. Cocurrent or countercurrent rating or design problems require the solution of elther one algebraic equation, two coupled algebraic equations, or three coupled algebraic equations to determine the unknown quantities of interest. Calculated product and reject compositions, stage cuts, and closed-end pressure ratios compare quite well with those from numerical solutions for practically useful low to moderate cuts over a wide range of parameters. Cocurrent rating calculations requiring solution of only one algebraic equation are recommended for shortcut procedures since flow pattern effects are significant but not large.read more
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Journal ArticleDOI
Hollow fiber air drying
TL;DR: The selectivity of these membranes for water over air is high, over 4000:1; the water permeability per membrane thickness is also high as discussed by the authors, over 5 cm/sec (6×107 barrers per cm).
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Fabrication of lab-scale hollow fiber membrane modules with high packing density
TL;DR: In this paper, a simple approach to fabricate lab-scale hollow fiber membrane modules with high packing density of 45-60%, which is around the level of commercial modules, by using commercially available standard parts was demonstrated.
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A New Numerical Approach for a Detailed Multicomponent Gas Separation Membrane Model and AspenPlus Simulation
TL;DR: In this article, a numerical solution approach for a widely accepted model developed earlier by Pan [1] for multicomponent gas separation by high-flux asymmetric membranes is presented, which does not require initial estimates of the pressure, flow and concentration profiles inside the fiber as does in Pan's original approach, thus allowing faster execution of the model equations.
Journal ArticleDOI
Approximate solutions for gas permeators separating binary mixtures
TL;DR: In this paper, two analytical approaches are proposed for predicting the exit compositions and area requirement in gas permeators, which are useful in the design and comparison of processes, and are compared with the predictions from the series solutions (SS) of Boucif et al.
Journal ArticleDOI
Simulation of binary gas separation with asymmetric hollow fibre membranes and case studies of air separation
TL;DR: In this article, a mathematical model for high-flux asymmetric hollow fiber membrane was developed considering the effect of permeate pressure build-up inside the fiber bore, which constitute a boundary value problem.