Ageing prediction is often complicated due to the interdependency of ageing mechanisms. Research has highlighted that storage ageing is not linear with time. Capacity loss due to storing the battery at constant temperature can shed more light on parametrising the properties of the Solid Electrolyte Interphase (SEI); the identification of which, using an electrochemical model, is systematically addressed in this work. A new methodology is proposed where any one of the available storage ageing datasets can be used to find the property of the SEI layer. A sensitivity study is performed with different molecular mass and densities which are key parameters in modelling the thickness of the SEI deposit. The conductivity is adjusted to fine tune th...
A pseudo two-dimensional (P2D) electro-chemical lithium-ion battery model is presented in this paper...
Conventional Li-ion battery ageing models, such as electrochemical, semi-empirical and empirical mod...
Cycle life is critically important in applications of rechargeable batteries, but lifetime predictio...
Prediction of ageing for lithium-ion cell is essential. However this is a complicated area with few ...
Hybrid and electric vehicles are becoming increasingly popular due to their benefits in lowering emi...
A hybrid vehicle battery spends around 70% of its time in storage at different temperatures compared...
Accurately predicting aging of lithium-ion batteries would help to prolong their lifespan, but remai...
Forecasting the lifetime of Li-ion batteries is a critical challenge that limits the integration of ...
The quality of lithium-ion batteries is affected by the formation of the solid electrolyte interphas...
Conventional Li-ion battery ageing models, such as electrochemical, semi-empirical and empirical mod...
Conventional Li-ion battery ageing models, such as electrochemical, semi-empirical and empirical mod...
In a battery pack, cell-to-cell chemical variation, or the variation in operating conditions, can po...
Ageing diagnosis in Lithium-ion batteries is essential to ensure their reliability and optimum perfo...
Lithium-ion batteries are a key technology for current and future energy storage in mobile and stati...
In many lithium-ion battery (LIB) applications, e.g. hybrid vehicles and load-levelling storage syst...
A pseudo two-dimensional (P2D) electro-chemical lithium-ion battery model is presented in this paper...
Conventional Li-ion battery ageing models, such as electrochemical, semi-empirical and empirical mod...
Cycle life is critically important in applications of rechargeable batteries, but lifetime predictio...
Prediction of ageing for lithium-ion cell is essential. However this is a complicated area with few ...
Hybrid and electric vehicles are becoming increasingly popular due to their benefits in lowering emi...
A hybrid vehicle battery spends around 70% of its time in storage at different temperatures compared...
Accurately predicting aging of lithium-ion batteries would help to prolong their lifespan, but remai...
Forecasting the lifetime of Li-ion batteries is a critical challenge that limits the integration of ...
The quality of lithium-ion batteries is affected by the formation of the solid electrolyte interphas...
Conventional Li-ion battery ageing models, such as electrochemical, semi-empirical and empirical mod...
Conventional Li-ion battery ageing models, such as electrochemical, semi-empirical and empirical mod...
In a battery pack, cell-to-cell chemical variation, or the variation in operating conditions, can po...
Ageing diagnosis in Lithium-ion batteries is essential to ensure their reliability and optimum perfo...
Lithium-ion batteries are a key technology for current and future energy storage in mobile and stati...
In many lithium-ion battery (LIB) applications, e.g. hybrid vehicles and load-levelling storage syst...
A pseudo two-dimensional (P2D) electro-chemical lithium-ion battery model is presented in this paper...
Conventional Li-ion battery ageing models, such as electrochemical, semi-empirical and empirical mod...
Cycle life is critically important in applications of rechargeable batteries, but lifetime predictio...