Axial distribution of permeance and of ideal selectivity of a porous cylindrical tube

Axial distribution of permeance and of ideal selectivity of a porous cylindrical tube

•Axial distribution of permeance and gas selectivity is determined experimentally.•A new radial form of the gas permeability equation has been developed.•The relationship of gas permeability with Darcy‘s permeability is established.•The pressure variation along the center axis of the tube is determi...

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Veröffentlicht in:Chemical engineering science 2018-06, Vol.183, p.295-305
Hauptverfasser: Najmi, H., El-Tabach, E., Gascoin, N., Chetehouna, K., Falempin, F.
Format: Artikel
Sprache:eng
Schlagworte:
Engineering Sciences
Fluid mechanics
Fuel cell
Mechanical engineering
Mechanics
Permeable tube
Physics
Reactive fluid environment
Regenerative cooling
Separation process
Sintered stainless steel tube
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container_end_page 305
container_issue
container_start_page 295
container_title Chemical engineering science
container_volume 183
creator Najmi, H.
El-Tabach, E.
Gascoin, N.
Chetehouna, K.
Falempin, F.
description •Axial distribution of permeance and gas selectivity is determined experimentally.•A new radial form of the gas permeability equation has been developed.•The relationship of gas permeability with Darcy‘s permeability is established.•The pressure variation along the center axis of the tube is determined.•Pressure gradient exists in the radial direction in the case of a porous tube. An innovative permselectivity test bench is used in order to determine the axial distribution of two properties of a stainless steel porous tube, which are the permeance and the gas selectivity. The effects of the operating conditions (inlet mass flowrate and inlet pressure) have been studied. A new radial form of the gas permeability equation has been developed for this work and its relationship with Darcy‘s permeability is established for a cylindrical configuration of the test. The pressure variation along the centre axis of the tube is determined. The effects of this pressure variation on the physical properties of gases such as density and viscosity are determined and their influence on the selectivity of gases is studied. It is found that the gas density and gas viscosity decrease along the flow. This decrease leads to an increase in the gas permeability for N2 and a decrease for CO2. Consequently, the selectivity (N2/CO2) increases. The obtained results can be useful to understand the factors affecting gas separation in case of a porous tube for continuous industrial processes.
doi_str_mv 10.1016/j.ces.2018.03.014
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subjects Engineering Sciences
Fluid mechanics
Fuel cell
Mechanical engineering
Mechanics
Permeable tube
Physics
Reactive fluid environment
Regenerative cooling
Separation process
Sintered stainless steel tube
title Axial distribution of permeance and of ideal selectivity of a porous cylindrical tube
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