Add to ORKGThis work presents two lithium-ion battery models which are implemented in the multiphysics software package FIRE®, developed by AVL List GmbH: an efficient electrothermal model based on an empirical voltage/current relationship and a physically based, non-isothermal electrochemical model. The models are applied to a 3D simulation of a high energy lithium-ion pouch battery. Both models are adjusted to measured discharge curves for various currents and temperatures. Then their results are compared and a deep insight into the electrodes is given by the electrochemical model. Here, the importance of 3D effects and temperature influence are pointed out – both effects which are often neglected in electrochemical models presented in literature. F...
Lithium-ion batteries are a rapidly growing power source for mobile applications such as electric ve...
textThe thesis presents a modeling framework for simulating three dimensional effects in lithium-ion...
Lithium iron phosphate is a promising positive electrode material. It shows apparent asymmetry betwe...
In this paper, a 3D (three-dimensional) layer structure of a pouch-type cell is modeled to understan...
International audienceThis chapter proposes an advanced thermal model for lithium-ion battery techno...
Summary This article presents an electro-thermal model of a stack of three lithium ion batteries for...
The development and implementation of Lithium-ion (Li-ion) batteries, particularly in applications, ...
Batteries are the key elements for the massive electrification of the transport sector. With the rap...
Modelling the electrochemical and thermal behaviours of cylindrical lithium-ion batteries (LIBs) is ...
International audienceThis paper presents extensive three-dimensional (3D) simulations of large LiFP...
The key challenge in developing a physico-chemical model is the model parameterization. The paper pr...
In this thesis, the electrochemical and thermal behavior of an LFP lithium-ion pouch battery is mode...
The market for lithium-ion batteries is growing exponentially. The performance of battery cells is g...
The growing need for accurate simulation of advanced lithium cells for powertrain electrification de...
In mobile and stationary battery systems, lifetime expectancy is a key parameter for the calculation...
Lithium-ion batteries are a rapidly growing power source for mobile applications such as electric ve...
textThe thesis presents a modeling framework for simulating three dimensional effects in lithium-ion...
Lithium iron phosphate is a promising positive electrode material. It shows apparent asymmetry betwe...
In this paper, a 3D (three-dimensional) layer structure of a pouch-type cell is modeled to understan...
International audienceThis chapter proposes an advanced thermal model for lithium-ion battery techno...
Summary This article presents an electro-thermal model of a stack of three lithium ion batteries for...
The development and implementation of Lithium-ion (Li-ion) batteries, particularly in applications, ...
Batteries are the key elements for the massive electrification of the transport sector. With the rap...
Modelling the electrochemical and thermal behaviours of cylindrical lithium-ion batteries (LIBs) is ...
International audienceThis paper presents extensive three-dimensional (3D) simulations of large LiFP...
The key challenge in developing a physico-chemical model is the model parameterization. The paper pr...
In this thesis, the electrochemical and thermal behavior of an LFP lithium-ion pouch battery is mode...
The market for lithium-ion batteries is growing exponentially. The performance of battery cells is g...
The growing need for accurate simulation of advanced lithium cells for powertrain electrification de...
In mobile and stationary battery systems, lifetime expectancy is a key parameter for the calculation...
Lithium-ion batteries are a rapidly growing power source for mobile applications such as electric ve...
textThe thesis presents a modeling framework for simulating three dimensional effects in lithium-ion...
Lithium iron phosphate is a promising positive electrode material. It shows apparent asymmetry betwe...