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Water transfer kinetics in a water activity control system designed for biocatalysis in organic media

Kaur, Jasmedh ; Wehtje, Ernst LU ; Adlercreutz, Patrick LU orcid ; Chand, Subhash and Mattiasson, Bo LU (1997) In Enzyme and Microbial Technology 21(7). p.496-501
Abstract

The performance of a water activity-controlling system in organic solvents using saturated salt solutions circulating in silicone tubing submerged in the solvent was studied. The mass transfer could be regarded as a flux through a cylindrical geometry. Integration over the barrier gave diffusion coefficients of water (D(aw)) which were similar for the different tubing sizes used. The driving force for the transfer was shown to be the difference in water activity and not the water concentration across the membrane. Hydrophilic solvents (ethyl acetate) gave higher transfer rates than more hydrophobic ones (diisopropyl ether). The D(aw) obtained in different solvents was influenced by the swelling behaviour of the tubing and the solubility... (More)

The performance of a water activity-controlling system in organic solvents using saturated salt solutions circulating in silicone tubing submerged in the solvent was studied. The mass transfer could be regarded as a flux through a cylindrical geometry. Integration over the barrier gave diffusion coefficients of water (D(aw)) which were similar for the different tubing sizes used. The driving force for the transfer was shown to be the difference in water activity and not the water concentration across the membrane. Hydrophilic solvents (ethyl acetate) gave higher transfer rates than more hydrophobic ones (diisopropyl ether). The D(aw) obtained in different solvents was influenced by the swelling behaviour of the tubing and the solubility of water. The water transfer was studied in a water 'producing' system consisting of 2.5 m silicone tubing submerged into a 250-ml tank reactor with a constant influx of water-saturated solvent. Different steady-state levels were obtained at different flow rates and the corresponding D(aw) values were calculated. The data obtained can be used to predict the required amount of tubing necessary to achieve a desired water transfer in a new application.

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author
; ; ; and
organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
Diffusion coefficient, Saturated salt solutions, Water activity control
in
Enzyme and Microbial Technology
volume
21
issue
7
pages
6 pages
publisher
Elsevier
external identifiers
  • scopus:0343471409
ISSN
0141-0229
DOI
10.1016/S0141-0229(97)00022-7
language
English
LU publication?
yes
id
90c5d3b5-3052-40c3-ae83-a5f35ddec746
date added to LUP
2019-06-20 16:13:15
date last changed
2022-01-31 22:13:26
@article{90c5d3b5-3052-40c3-ae83-a5f35ddec746,
  abstract     = {{<p>The performance of a water activity-controlling system in organic solvents using saturated salt solutions circulating in silicone tubing submerged in the solvent was studied. The mass transfer could be regarded as a flux through a cylindrical geometry. Integration over the barrier gave diffusion coefficients of water (D(aw)) which were similar for the different tubing sizes used. The driving force for the transfer was shown to be the difference in water activity and not the water concentration across the membrane. Hydrophilic solvents (ethyl acetate) gave higher transfer rates than more hydrophobic ones (diisopropyl ether). The D(aw) obtained in different solvents was influenced by the swelling behaviour of the tubing and the solubility of water. The water transfer was studied in a water 'producing' system consisting of 2.5 m silicone tubing submerged into a 250-ml tank reactor with a constant influx of water-saturated solvent. Different steady-state levels were obtained at different flow rates and the corresponding D(aw) values were calculated. The data obtained can be used to predict the required amount of tubing necessary to achieve a desired water transfer in a new application.</p>}},
  author       = {{Kaur, Jasmedh and Wehtje, Ernst and Adlercreutz, Patrick and Chand, Subhash and Mattiasson, Bo}},
  issn         = {{0141-0229}},
  keywords     = {{Diffusion coefficient; Saturated salt solutions; Water activity control}},
  language     = {{eng}},
  month        = {{11}},
  number       = {{7}},
  pages        = {{496--501}},
  publisher    = {{Elsevier}},
  series       = {{Enzyme and Microbial Technology}},
  title        = {{Water transfer kinetics in a water activity control system designed for biocatalysis in organic media}},
  url          = {{http://dx.doi.org/10.1016/S0141-0229(97)00022-7}},
  doi          = {{10.1016/S0141-0229(97)00022-7}},
  volume       = {{21}},
  year         = {{1997}},
}