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Modeling and Experiments of Binary Electrolytes in the Presence of Diffusion, Migration, and Electro-Osmotic Flow
J. W. Haverkort
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Corresponding author for this work
Energy Technology
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Article
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Scientific
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peer-review
10
Citations (Scopus)
143
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INIS
electrolytes
100%
diffusion
100%
migration
100%
modeling
100%
advection
75%
ions
50%
water
50%
electrolysis
50%
valence
25%
electrophoresis
25%
applications
25%
electrodeposition
25%
porous materials
25%
layers
25%
one-dimensional calculations
25%
equations
25%
drag
25%
Chemistry
Time
100%
Electrolyte
100%
Electroosmosis
100%
Limiting Current
66%
Electrolysis
66%
Water Type
66%
Indium Ion
33%
Diffusion Potential
33%
Porosity
33%
Separator
33%
Drop
33%
Electrodeposition
33%
Application
33%
Ion
33%
Mathematics
Timescale
100%
Modeling
100%
Time Evolution
66%
Chemical Engineering
Water
100%
Electrophoretic Technology
50%
Electrodeposition
50%
Engineering
Valency
33%