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2019 | OriginalPaper | Chapter

Finite Element Analysis of a Cylindrical Cathode Collector Bars Design

Authors : Olivier Lacroix, Richard Beeler, Hicham Chaouki, Louis Gosselin, Mario Fafard

Published in: Light Metals 2019

Publisher: Springer International Publishing

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Abstract

A new cathode design is investigated using the finite element method, in an attempt to improve the energy efficiency of a cell and reduce the premature wear of the cathode due to a non-uniform current distribution. This new design relies on cylindrical collector bars including copper inserts and eliminates the need of a cast iron interface in order to improve contact between the carbon blocks and the collector bars. The thermo-electro-mechanical model developed includes contact interfaces to simulate the contact between the different materials and is employed to determine the optimal configuration. Various geometry and design parameters are explored and their effect on both voltage drop and current distribution are highlighted. Simulation results indicate that a substantial voltage drop reduction and more uniform current distribution could be achieved.

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previous chapter Modelling Study of Exhaust Rate Impact on Heat Loss from Aluminium Reduction Cells
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Literature
1.
M. Segatz et al., “Hydro’s cell technology path towards specific energy consumption below 12 kWh/kg”, Light Metals, 2016, 301–305.
2.
P. Thibeault et al., “Rio Tinto Alcan AP4X low energy cell development”, Light Metals, 2013, 543–547.
3.
D. Zhou et al., “Chinalco 600 kA high capacity low energy consumption reduction cell development”, Light Metals, 2015, 483–487.
4.
R. Beeler, “Bar to block contact resistance in aluminum reduction cell cathode assemblies”, Light Metals, 2014, 507–511.
5.
M. Blais et al., “Energy savings in aluminium electrolysis cells: Effect of the cathode design”, Light Metals, 2013, 627–631.
6.
M. Dupuis, “Development and application of an ANSYS based thermo-electro-mechanical collector bar slot design tool”, Light Metals, 2011, 519–524.
7.
M. Gagnon et al., “Optimization of the cathode collector bar with a copper insert using finite element method”, Light Metals, 2013, 621–626.
8.
R. Friedrich et al., “Minimizing cathode voltage drop by optimizing cathode slot design”, Light Metals, 2017, 705–711.
9.
F. Hiltmann et al., “Influence of temperature and contact pressure between cast iron and cathode carbon on contact resistance”, Light Metals, 1996, 277–283.
10.
M. Gagnon., “Optimisation of the cathode collector bar in a Hall-Héroult cell”, M.Sc. Thesis, Université Laval, Québec, Canada, 2013, 13–24.
11.
B. Allard et al., “Evolution of thermal, electrical and mechanical properties of graphitized cathode blocks for aluminium electrolysis cells with temperature.”, Light Metals, 2000, 515–521.
12.
R. Beeler, “An analytical model for cathode voltage drop in aluminum reduction cells.”, Light Metals, 2003, 241–245.
13.
R. von Kaenel, J. Antille, “Modeling of energy savings by using cathode design and inserts.”, Light Metals, 2011, 569–574.
Metadata
Title
Finite Element Analysis of a Cylindrical Cathode Collector Bars Design
Authors
Olivier Lacroix
Richard Beeler
Hicham Chaouki
Louis Gosselin
Mario Fafard
Copyright Year
2019
Book
Light Metals 2019

Print ISBN: 978-3-030-05863-0

Electronic ISBN: 978-3-030-05864-7

Copyright Year: 2019

DOI
https://doi.org/10.1007/978-3-030-05864-7_78

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