Literature overview: Difference between revisions

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== Mesoscale Modeling of a Li-Ion polymer cell ==
== Mesoscale Modeling of a Li-Ion polymer cell ==
Chia-Wei Wang, Ann Marie Sastry
Journal of The Electrochemical Society, '''154'''(11) A1035-A1047 (2007)
Very interesting and inspiring article. For modeling 1D Li-Ion battery, 3D COMSOL Multiphysics model is developed, that contains electrodes and electrolyte. Electrode is modeled by putting into it spheres and/or ellipsoids, that are active material particles. It is studied, how active material particles and their distribution in electrode affects battery preformance/capacity.
Very interesting and inspiring article. For modeling 1D Li-Ion battery, 3D COMSOL Multiphysics model is developed, that contains electrodes and electrolyte. Electrode is modeled by putting into it spheres and/or ellipsoids, that are active material particles. It is studied, how active material particles and their distribution in electrode affects battery preformance/capacity.
This approach is not good to use by us, right now. There are too many details, arising from modelling active material particles, to deal with.
This approach is not good to use by us, right now. There are too many details, arising from modelling active material particles, to deal with.
== Simulation and Optimization of the Dual Lithium Ion insertion Cell ==
Thomas F. Fuller, Marc Doyle, John Newman
In the article, method for modeling conventional Li-Ion battery is presented. Right now, this is the article, on what most models describing Li-ion battery are basing.
Model presented includes:
# mass transport
# electrical field in electrodes, electrolyte
# electrode-electrolyte interface pocesses by Butler-Volmer equation

Revision as of 16:22, 11 December 2008

Mesoscale Modeling of a Li-Ion polymer cell

Chia-Wei Wang, Ann Marie Sastry

Journal of The Electrochemical Society, 154(11) A1035-A1047 (2007)


Very interesting and inspiring article. For modeling 1D Li-Ion battery, 3D COMSOL Multiphysics model is developed, that contains electrodes and electrolyte. Electrode is modeled by putting into it spheres and/or ellipsoids, that are active material particles. It is studied, how active material particles and their distribution in electrode affects battery preformance/capacity. This approach is not good to use by us, right now. There are too many details, arising from modelling active material particles, to deal with.


Simulation and Optimization of the Dual Lithium Ion insertion Cell

Thomas F. Fuller, Marc Doyle, John Newman


In the article, method for modeling conventional Li-Ion battery is presented. Right now, this is the article, on what most models describing Li-ion battery are basing. Model presented includes:

  1. mass transport
  2. electrical field in electrodes, electrolyte
  3. electrode-electrolyte interface pocesses by Butler-Volmer equation