The reaction environment in a filter-press laboratory reactor: the FM01-LC flow cell
The reaction environment in a filter-press laboratory reactor: the FM01-LC flow cell
A parallel plate cell facilitating controlled flow in a rectangular channel and capable of incorporating a wide range of electrode materials is important in studies of electrode reactions prior to process development and scale-up. The FM01-LC, a versatile laboratory-scale, plane parallel filter-press type electrochemical cell (having a projected electrode area of 64 cm2) which is based on the larger FM21-SP electrolyser (2100 cm2 area). Many laboratories have used this type of reactor to quantify the importance of reaction environment in fundamental studies and to prepare for industrial applications. A number of papers have concerned the experimental characterization and computational modelling of its reaction environment but the experimental and computational data has become dispersed. The cell has been used in a diverse range of synthesis and processing applications which require controlled flow and known reaction environment. In a previous review, the cell construction and reaction environment was summarised followed by the illustration of its use for a range of applications that include organic and inorganic electrosynthesis, metal ion removal, energy storage, environmental remediation (e.g., metal recycling or anodic destruction of organics) and drinking water treatment. This complementary review considers the characteristics of the FM01-LC electrolyser as an example of a well-engineered flow cell facilitating cell scale-up and provides a rigorous analysis of its reaction environment. Particular aspects include the influence of electrolyte velocity on mass transport rates, flow dispersion and current distribution.
computational fluid dynamics, current distribution, electrolyser, mass transport, potential distribution, pressure drop, contents
436-452
Rivera, Fernando
d5249472-39d7-4a21-98b2-edef98d00e03
Ponce de Leon, Carlos
508a312e-75ff-4bcb-9151-dacc424d755c
Walsh, Frank C.
309528e7-062e-439b-af40-9309bc91efb2
Nava, Jose Luis
07a35c2c-bcc8-4ef5-a8f6-34c1d698b46b
10 April 2015
Rivera, Fernando
d5249472-39d7-4a21-98b2-edef98d00e03
Ponce de Leon, Carlos
508a312e-75ff-4bcb-9151-dacc424d755c
Walsh, Frank C.
309528e7-062e-439b-af40-9309bc91efb2
Nava, Jose Luis
07a35c2c-bcc8-4ef5-a8f6-34c1d698b46b
Rivera, Fernando, Ponce de Leon, Carlos, Walsh, Frank C. and Nava, Jose Luis
(2015)
The reaction environment in a filter-press laboratory reactor: the FM01-LC flow cell.
Electrochimica Acta, 161, .
(doi:10.1016/j.electacta.2015.02.161).
Abstract
A parallel plate cell facilitating controlled flow in a rectangular channel and capable of incorporating a wide range of electrode materials is important in studies of electrode reactions prior to process development and scale-up. The FM01-LC, a versatile laboratory-scale, plane parallel filter-press type electrochemical cell (having a projected electrode area of 64 cm2) which is based on the larger FM21-SP electrolyser (2100 cm2 area). Many laboratories have used this type of reactor to quantify the importance of reaction environment in fundamental studies and to prepare for industrial applications. A number of papers have concerned the experimental characterization and computational modelling of its reaction environment but the experimental and computational data has become dispersed. The cell has been used in a diverse range of synthesis and processing applications which require controlled flow and known reaction environment. In a previous review, the cell construction and reaction environment was summarised followed by the illustration of its use for a range of applications that include organic and inorganic electrosynthesis, metal ion removal, energy storage, environmental remediation (e.g., metal recycling or anodic destruction of organics) and drinking water treatment. This complementary review considers the characteristics of the FM01-LC electrolyser as an example of a well-engineered flow cell facilitating cell scale-up and provides a rigorous analysis of its reaction environment. Particular aspects include the influence of electrolyte velocity on mass transport rates, flow dispersion and current distribution.
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Published date: 10 April 2015
Keywords:
computational fluid dynamics, current distribution, electrolyser, mass transport, potential distribution, pressure drop, contents
Organisations:
Engineering Science Unit
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Local EPrints ID: 375390
URI: http://eprints.soton.ac.uk/id/eprint/375390
ISSN: 0013-4686
PURE UUID: 5df4eb8f-bd7b-4179-969f-cb820c5ade06
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Date deposited: 23 Mar 2015 13:33
Last modified: 15 Mar 2024 03:22
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Author:
Fernando Rivera
Author:
Jose Luis Nava
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