Optimized design of an electrochemical filter-press reactor using CFD methods

Ángel Frías-Ferrer; Ignacio Tudela; Olivier Louisnard; Verónica Sáez; María Deseada Esclapez; María Isabel Díez-García; Pedro Bonete; José González-García

doi:10.1016/j.cej.2011.02.053

Optimized design of an electrochemical filter-press reactor using CFD methods

Ángel Frías-Ferrer, Ignacio Tudela, Olivier Louisnard, Verónica Sáez, María Deseada Esclapez, María Isabel Díez-García, Pedro Bonete, José González-García^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

A former laboratory filter-press electrochemical reactor previously used in electrodialysis, electrosynthesis and wastewater treatment was studied from a hydrodynamic point of view using computational fluid dynamics (CFD). A finite elements method (FEM) software environment was used in order to simulate both fluid velocity field and tracer diffusion in the reactor for different low Reynolds numbers, enabling the estimation of active and stagnant areas inside the reactor. These results provided interesting information in order to design a new electrochemical compartment focusing on the entrance-exit manifolds to minimize the formation of stagnant areas within the reactor. CFD methods were again employed to study and optimize the new reactor in order to predict its performance. In both cases, CFD calculations were compared with residence time distribution (RTD) studies in order to validate the simulations.

Original language	English
Pages (from-to)	270-281
Number of pages	12
Journal	Chemical Engineering Journal
Volume	169
Issue number	1-3
DOIs	https://doi.org/10.1016/j.cej.2011.02.053
Publication status	Published - 1 May 2011
Externally published	Yes

Keywords / Materials (for Non-textual outputs)

CFD
Electrochemistry
Filter-press reactor
Hydrodynamics
Laminar flow
Mass transfer
RTD

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10.1016/j.cej.2011.02.053

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@article{072cedee97294eaf8836d3cb0c2af244,

title = "Optimized design of an electrochemical filter-press reactor using CFD methods",

abstract = "A former laboratory filter-press electrochemical reactor previously used in electrodialysis, electrosynthesis and wastewater treatment was studied from a hydrodynamic point of view using computational fluid dynamics (CFD). A finite elements method (FEM) software environment was used in order to simulate both fluid velocity field and tracer diffusion in the reactor for different low Reynolds numbers, enabling the estimation of active and stagnant areas inside the reactor. These results provided interesting information in order to design a new electrochemical compartment focusing on the entrance-exit manifolds to minimize the formation of stagnant areas within the reactor. CFD methods were again employed to study and optimize the new reactor in order to predict its performance. In both cases, CFD calculations were compared with residence time distribution (RTD) studies in order to validate the simulations.",

keywords = "CFD, Electrochemistry, Filter-press reactor, Hydrodynamics, Laminar flow, Mass transfer, RTD",

author = "{\'A}ngel Fr{\'i}as-Ferrer and Ignacio Tudela and Olivier Louisnard and Ver{\'o}nica S{\'a}ez and Esclapez, {Mar{\'i}a Deseada} and D{\'i}ez-Garc{\'i}a, {Mar{\'i}a Isabel} and Pedro Bonete and Jos{\'e} Gonz{\'a}lez-Garc{\'i}a",

year = "2011",

month = may,

day = "1",

doi = "10.1016/j.cej.2011.02.053",

language = "English",

volume = "169",

pages = "270--281",

journal = "Chemical Engineering Journal",

issn = "1385-8947",

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number = "1-3",

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TY - JOUR

T1 - Optimized design of an electrochemical filter-press reactor using CFD methods

AU - Frías-Ferrer, Ángel

AU - Tudela, Ignacio

AU - Louisnard, Olivier

AU - Sáez, Verónica

AU - Esclapez, María Deseada

AU - Díez-García, María Isabel

AU - Bonete, Pedro

AU - González-García, José

PY - 2011/5/1

Y1 - 2011/5/1

N2 - A former laboratory filter-press electrochemical reactor previously used in electrodialysis, electrosynthesis and wastewater treatment was studied from a hydrodynamic point of view using computational fluid dynamics (CFD). A finite elements method (FEM) software environment was used in order to simulate both fluid velocity field and tracer diffusion in the reactor for different low Reynolds numbers, enabling the estimation of active and stagnant areas inside the reactor. These results provided interesting information in order to design a new electrochemical compartment focusing on the entrance-exit manifolds to minimize the formation of stagnant areas within the reactor. CFD methods were again employed to study and optimize the new reactor in order to predict its performance. In both cases, CFD calculations were compared with residence time distribution (RTD) studies in order to validate the simulations.

AB - A former laboratory filter-press electrochemical reactor previously used in electrodialysis, electrosynthesis and wastewater treatment was studied from a hydrodynamic point of view using computational fluid dynamics (CFD). A finite elements method (FEM) software environment was used in order to simulate both fluid velocity field and tracer diffusion in the reactor for different low Reynolds numbers, enabling the estimation of active and stagnant areas inside the reactor. These results provided interesting information in order to design a new electrochemical compartment focusing on the entrance-exit manifolds to minimize the formation of stagnant areas within the reactor. CFD methods were again employed to study and optimize the new reactor in order to predict its performance. In both cases, CFD calculations were compared with residence time distribution (RTD) studies in order to validate the simulations.

KW - CFD

KW - Electrochemistry

KW - Filter-press reactor

KW - Hydrodynamics

KW - Laminar flow

KW - Mass transfer

KW - RTD

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DO - 10.1016/j.cej.2011.02.053

M3 - Article

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SN - 1385-8947

VL - 169

SP - 270

EP - 281

JO - Chemical Engineering Journal

JF - Chemical Engineering Journal

IS - 1-3

ER -

Optimized design of an electrochemical filter-press reactor using CFD methods

Abstract

Keywords / Materials (for Non-textual outputs)

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