Add to ORKGA low-temperature electro-thermal coupled model, which is based on the electrochemical mechanism, is developed to accurately capture both electrical and thermal behaviors of batteries. Activation energies reveal that temperature dependence of resistances is greater than that of capacitances. The influence of frequency on polarization voltage and irreversible heat is discussed, and frequency dependence of polarization resistance and capacitance is obtained. Based on the frequency-dependent equation, a reduced low-temperature electro-thermal coupled model is proposed and experimentally validated under different temperature, frequency and amplitude conditions. Simulation results exhibit good agreement with experimental data, where the maximum ...
Lithium-ion battery is considered one of the most attractive energy storage systems for electric veh...
A theoretical electrochemical thermal model combined with a thermal resistive network is proposed to...
We present a one-dimensional, radial, coupled degradation-electrochemical-thermal (DET) model of a l...
Considering that use of measured current as input of a battery model may cause distortion of the mod...
International audienceThis chapter proposes an advanced thermal model for lithium-ion battery techno...
A fully coupled electrochemical and thermal model for lithium-ion batteries is developed to investig...
International audienceThe lithium-ion battery is a complex system that is both non-linear and non-st...
Substantially reduced energy and power capabilities of lithium-ion cell operating at low temperature...
The constant polarization voltage is managed for battery heating to achieve a good tradeoff between ...
The scale of the electric vehicle (EV) industry is expanding in the current new energy industry refo...
This paper describes a novel thermal model for lithium-ion battery technology. The model has been de...
The development and implementation of Lithium-ion (Li-ion) batteries, particularly in applications, ...
In this study, an electrochemical-thermal coupled model was developed to investigate the electrical ...
A multi-dimensional thermal and electrochemical coupled model is developed for Li-ion batteries. The...
Lithium ion batteries are being used in an increasing number of applications. However, one of their ...
Lithium-ion battery is considered one of the most attractive energy storage systems for electric veh...
A theoretical electrochemical thermal model combined with a thermal resistive network is proposed to...
We present a one-dimensional, radial, coupled degradation-electrochemical-thermal (DET) model of a l...
Considering that use of measured current as input of a battery model may cause distortion of the mod...
International audienceThis chapter proposes an advanced thermal model for lithium-ion battery techno...
A fully coupled electrochemical and thermal model for lithium-ion batteries is developed to investig...
International audienceThe lithium-ion battery is a complex system that is both non-linear and non-st...
Substantially reduced energy and power capabilities of lithium-ion cell operating at low temperature...
The constant polarization voltage is managed for battery heating to achieve a good tradeoff between ...
The scale of the electric vehicle (EV) industry is expanding in the current new energy industry refo...
This paper describes a novel thermal model for lithium-ion battery technology. The model has been de...
The development and implementation of Lithium-ion (Li-ion) batteries, particularly in applications, ...
In this study, an electrochemical-thermal coupled model was developed to investigate the electrical ...
A multi-dimensional thermal and electrochemical coupled model is developed for Li-ion batteries. The...
Lithium ion batteries are being used in an increasing number of applications. However, one of their ...
Lithium-ion battery is considered one of the most attractive energy storage systems for electric veh...
A theoretical electrochemical thermal model combined with a thermal resistive network is proposed to...
We present a one-dimensional, radial, coupled degradation-electrochemical-thermal (DET) model of a l...