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An engineering approach to mass transfer performance for hollow fibre modules with shell-side axial feed flow

Field, Robert W. and Lipnizki, Frank LU orcid (1999) International Congress on Membranes and Membrane Processes 1999 p.50-50
Abstract
An generalised engineering approach based on the analogy between mass and heat transfer is proposed to benchmark the shell-side mass transfer coefficient for axial flow in hollow fibre modules from low to moderate packing densities. The trends obtained by this approach are similar to those of correlations found in the literature and differences between the approaches are discussed. Furthermore, effects influencing mass transfer in hollow fibre modules are identified and discussed as a function of void fraction. Finally, a module specific adjustment factor is defined to account for difference between the theoretical standard and the experimentally measured performance.
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author
and
publishing date
type
Contribution to conference
publication status
published
subject
keywords
Membranes, Module design, Modelling
pages
1 pages
conference name
International Congress on Membranes and Membrane Processes 1999
conference location
Toronto, Canada
conference dates
1999-06-12 - 1999-06-18
language
English
LU publication?
no
id
b0c3d2e7-da5f-4aea-96a2-283219342dec
date added to LUP
2019-05-23 08:16:50
date last changed
2020-11-25 02:16:18
@misc{b0c3d2e7-da5f-4aea-96a2-283219342dec,
  abstract     = {{An generalised engineering approach based on the analogy between mass and heat transfer is proposed to benchmark the shell-side mass transfer coefficient for axial flow in hollow fibre modules from low to moderate packing densities.  The trends obtained by this approach are similar to those of correlations found in the literature and differences between the approaches are discussed.  Furthermore, effects influencing mass transfer in hollow fibre modules are identified and discussed as a function of void fraction.  Finally, a module specific adjustment factor is defined to account for difference between the theoretical standard and the experimentally measured performance.}},
  author       = {{Field, Robert W. and Lipnizki, Frank}},
  keywords     = {{Membranes; Module design; Modelling}},
  language     = {{eng}},
  month        = {{06}},
  pages        = {{50--50}},
  title        = {{An engineering approach to mass transfer performance for hollow fibre modules with shell-side axial feed flow}},
  year         = {{1999}},
}