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Dataset for Current distribution in a rectangular flow channel manufactured by 3D-printing

Dataset for Current distribution in a rectangular flow channel manufactured by 3D-printing
Dataset for Current distribution in a rectangular flow channel manufactured by 3D-printing
The characterization and improvement of a rectangular channel electrolyte flow compartment used in an iron-air flow battery was carried out by using an arrangement of copper electrodes to measure the current density distribution employing the limiting current technique. The present work addresses the hydrodynamics and mass transport distribution in the compartment and their improvement by an improved electrolyte compartment that results in a more uniform current distribution. The current distribution was evaluated as the ratio between the local and the averaged limiting current densities during the reduction of copper ions over a range of mean linear flow velocity across the electrode surface (2-30 cm s-1). The initial compartment, showed larger differences between the minimum and maximum currents than the electrolyte compartment that resulted as part of the design process and showed a higher pressure drop at a given mean linear flow velocity. This data supports the publication: Figueredo Rodriguez, Horacio, Mckerracher, Rachel, Ponce De Leon Albarran, Carlos and Walsh, Frank (2016) Current distribution in a rectangular flow channel manufactured by 3D-printing. AIChE Journal , 1-35. (doi:10.1002/aic.15454).
University of Southampton
Figueredo Rodriguez, Horacio, Antonio
e49f1681-45b4-4828-a217-9a507bb68791
Mckerracher, Rachel
f5f9f0e7-a256-4714-b752-e3bb8dab03fc
Ponce De Leon Albarran, Carlos
508a312e-75ff-4bcb-9151-dacc424d755c
Walsh, Frank
309528e7-062e-439b-af40-9309bc91efb2
Figueredo Rodriguez, Horacio, Antonio
e49f1681-45b4-4828-a217-9a507bb68791
Mckerracher, Rachel
f5f9f0e7-a256-4714-b752-e3bb8dab03fc
Ponce De Leon Albarran, Carlos
508a312e-75ff-4bcb-9151-dacc424d755c
Walsh, Frank
309528e7-062e-439b-af40-9309bc91efb2

Figueredo Rodriguez, Horacio, Antonio, Mckerracher, Rachel, Ponce De Leon Albarran, Carlos and Walsh, Frank (2016) Dataset for Current distribution in a rectangular flow channel manufactured by 3D-printing. University of Southampton doi:10.5258/SOTON/399736 [Dataset]

Record type: Dataset

Abstract

The characterization and improvement of a rectangular channel electrolyte flow compartment used in an iron-air flow battery was carried out by using an arrangement of copper electrodes to measure the current density distribution employing the limiting current technique. The present work addresses the hydrodynamics and mass transport distribution in the compartment and their improvement by an improved electrolyte compartment that results in a more uniform current distribution. The current distribution was evaluated as the ratio between the local and the averaged limiting current densities during the reduction of copper ions over a range of mean linear flow velocity across the electrode surface (2-30 cm s-1). The initial compartment, showed larger differences between the minimum and maximum currents than the electrolyte compartment that resulted as part of the design process and showed a higher pressure drop at a given mean linear flow velocity. This data supports the publication: Figueredo Rodriguez, Horacio, Mckerracher, Rachel, Ponce De Leon Albarran, Carlos and Walsh, Frank (2016) Current distribution in a rectangular flow channel manufactured by 3D-printing. AIChE Journal , 1-35. (doi:10.1002/aic.15454).

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More information

Published date: 2016
Related URLs:
Organisations: Education Hub, Energy Technology Group, Southampton Marine & Maritime Institute

Identifiers

Local EPrints ID: 399736
URI: http://eprints.soton.ac.uk/id/eprint/399736
DOI: doi:10.5258/SOTON/399736
PURE UUID: f47eed71-66e9-433f-8d18-0f49c567c8d7
ORCID for Carlos Ponce De Leon Albarran: ORCID iD orcid.org/0000-0002-1907-5913

Catalogue record

Date deposited: 08 Feb 2017 14:55
Last modified: 05 Nov 2023 02:40

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Contributors

Creator: Horacio, Antonio Figueredo Rodriguez
Creator: Rachel Mckerracher
Creator: Carlos Ponce De Leon Albarran ORCID iD
Creator: Frank Walsh

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