A pseudo two-dimensional (P2D) electro-chemical lithium-ion battery model is presented in this paper to study the capacity fade under cyclic charge-discharge conditions. The Newman model [1,2] has been modified to include a continuous solvent reduction reaction responsible for the capacity fade and power fade. The temperature variation inside the cell is accurately predicted using a distributed thermal model coupled with the internal chemical heat generation. The model is further improved by linking the porosity variation with the electrolyte partial molar concentration, thereby proving a stronger coupling between the battery performance and the chemical properties of electrolyte. The solid electrolyte interface (SEI) layer growth is estima...
An ideal battery model must gather sufficient electrochemical data about the battery system while re...
Hybrid and electric vehicles are becoming increasingly popular due to their benefits in lowering emi...
Micro pore-clogging in the electrodes due to SEI growth and other side reactions can cause adverse e...
Lithium-ion batteries are extensively used in electric vehicles, however, their significant degradat...
In a battery pack, cell-to-cell chemical variation, or the variation in operating conditions, can po...
A first-principles-based charge-discharge model was developed to simulate the capacity fade of Li-io...
A first principles-based model has been developed to simulate the capacity fade of Li-ion batteries....
A mathematical model is presented to predict the performance of a lithium-ion battery. It includes t...
Lithium-ion batteries are ubiquitous in modern society. The high power and energy density of lithiu...
Prediction of ageing for lithium-ion cell is essential. However this is a complicated area with few ...
A general mathematical model to study capacity fading in lithium ion batteries is developed. The mod...
Lithium-ion pouch cells were cycled at five different temperatures (5, 15, 25, 35, and 45°C ), and r...
A mathematical model based on formation and dissolution kinetics is formulated for the formation of ...
This paper investigates the effect of anode particle radius and anode reaction rate constant on the ...
A hybrid vehicle battery spends around 70% of its time in storage at different temperatures compared...
An ideal battery model must gather sufficient electrochemical data about the battery system while re...
Hybrid and electric vehicles are becoming increasingly popular due to their benefits in lowering emi...
Micro pore-clogging in the electrodes due to SEI growth and other side reactions can cause adverse e...
Lithium-ion batteries are extensively used in electric vehicles, however, their significant degradat...
In a battery pack, cell-to-cell chemical variation, or the variation in operating conditions, can po...
A first-principles-based charge-discharge model was developed to simulate the capacity fade of Li-io...
A first principles-based model has been developed to simulate the capacity fade of Li-ion batteries....
A mathematical model is presented to predict the performance of a lithium-ion battery. It includes t...
Lithium-ion batteries are ubiquitous in modern society. The high power and energy density of lithiu...
Prediction of ageing for lithium-ion cell is essential. However this is a complicated area with few ...
A general mathematical model to study capacity fading in lithium ion batteries is developed. The mod...
Lithium-ion pouch cells were cycled at five different temperatures (5, 15, 25, 35, and 45°C ), and r...
A mathematical model based on formation and dissolution kinetics is formulated for the formation of ...
This paper investigates the effect of anode particle radius and anode reaction rate constant on the ...
A hybrid vehicle battery spends around 70% of its time in storage at different temperatures compared...
An ideal battery model must gather sufficient electrochemical data about the battery system while re...
Hybrid and electric vehicles are becoming increasingly popular due to their benefits in lowering emi...
Micro pore-clogging in the electrodes due to SEI growth and other side reactions can cause adverse e...