Abstract
The thermal modeling of electrochemical batteries is today an integral part of the design and validation operations of new products. The Li-ion pair allows to increase the power density of batteries but leads to higher heat fluxes during charging-output cycles. Thus, the thermal control has become more crucial and requires the use of modeling. SAFT and TSR companies are involved in this approach and use the ESACAP software. This paper presents this software which uses a nodal method for the modeling of the coupled thermal and electrical processes that take place inside elementary cells and batteries. (J.S.)
Alexandre, A;
[1]
Flament, P;
[2]
Marolleau, T;
[3]
Guiot, T;
Lefriec, C
[4]
- Ecole Nationale Superieure de Mecanique et d`Aerotechnique (ENSMA), 86 - Poitiers (France)
- SAFT, 33 - Bordeaux (France)
- SAFT, Advanced and Industrial Battery Group, 86 - Poitiers (France)
- TSR Futuropolis, 86 - Chasseneuil du Poitou (France)
Citation Formats
Alexandre, A, Flament, P, Marolleau, T, Guiot, T, and Lefriec, C.
Thermal modeling. Application to lithium batteries; Modelisation thermique. Application aux accumulateurs lithium.
France: N. p.,
1996.
Web.
Alexandre, A, Flament, P, Marolleau, T, Guiot, T, & Lefriec, C.
Thermal modeling. Application to lithium batteries; Modelisation thermique. Application aux accumulateurs lithium.
France.
Alexandre, A, Flament, P, Marolleau, T, Guiot, T, and Lefriec, C.
1996.
"Thermal modeling. Application to lithium batteries; Modelisation thermique. Application aux accumulateurs lithium."
France.
@misc{etde_333981,
title = {Thermal modeling. Application to lithium batteries; Modelisation thermique. Application aux accumulateurs lithium}
author = {Alexandre, A, Flament, P, Marolleau, T, Guiot, T, and Lefriec, C}
abstractNote = {The thermal modeling of electrochemical batteries is today an integral part of the design and validation operations of new products. The Li-ion pair allows to increase the power density of batteries but leads to higher heat fluxes during charging-output cycles. Thus, the thermal control has become more crucial and requires the use of modeling. SAFT and TSR companies are involved in this approach and use the ESACAP software. This paper presents this software which uses a nodal method for the modeling of the coupled thermal and electrical processes that take place inside elementary cells and batteries. (J.S.)}
place = {France}
year = {1996}
month = {Dec}
}
title = {Thermal modeling. Application to lithium batteries; Modelisation thermique. Application aux accumulateurs lithium}
author = {Alexandre, A, Flament, P, Marolleau, T, Guiot, T, and Lefriec, C}
abstractNote = {The thermal modeling of electrochemical batteries is today an integral part of the design and validation operations of new products. The Li-ion pair allows to increase the power density of batteries but leads to higher heat fluxes during charging-output cycles. Thus, the thermal control has become more crucial and requires the use of modeling. SAFT and TSR companies are involved in this approach and use the ESACAP software. This paper presents this software which uses a nodal method for the modeling of the coupled thermal and electrical processes that take place inside elementary cells and batteries. (J.S.)}
place = {France}
year = {1996}
month = {Dec}
}