Understanding battery capacity degradation is instrumental for designing modern electric vehicles. In this paper, a Semi-Empirical Model for predicting the Capacity Loss of Lithium-ion batteries during Cycling and Calendar Aging is developed. In order to redict the Capacity Loss with a high accuracy, battery operation data from different test conditions and different Lithium-ion batteries chemistries were obtained from literature for parameter optimization (fitting). The obtained models were then compared to experimental data for validation. Our results show that the average error between the estimated Capacity Loss and measured Capacity Loss is less than 1.5% during Cycling Aging, and less than 2% during Calendar Aging. An electric mining ...
International audienceThis paper shows that the way of charging electric vehicle influences the batt...
The presence of lithium-ion batteries has been steadily growing in stationary and mobile application...
Battery aging is one of the critical problems to be tackled in battery research, as it limits the po...
Understanding battery capacity degradation is instrumental for designing modern electric vehicles. I...
This work summarizes the findings resulting from applying an aging modeling approach to four differe...
Predicting the performance of Li-ion batteries over lifetime is necessary for design and optimal ope...
International audienceBeing able to predict the Li-ion battery degradation is necessary for applicat...
This work combines recent capacity performance-based models for of NCM-LMO Li-ion variant batteries ...
With the increasing demand for high energy density and high-power density lithium-ion batteries for ...
Due to increasing gas prices and the dwindling of our planet’s finite oil resources, the hope for th...
The work provides a study on the development of algorithms which estimate the degradation rate of ba...
Renewable energy sources, although they are quickly increasing their share in the energy mix, face a...
Renewable sources are seasonal and cannot be considered as available energy source as their generati...
Many researchers have worked to develop methods to analyze and characterize capacity fade in lithium...
International audienceThis paper shows that the way of charging electric vehicle influences the batt...
The presence of lithium-ion batteries has been steadily growing in stationary and mobile application...
Battery aging is one of the critical problems to be tackled in battery research, as it limits the po...
Understanding battery capacity degradation is instrumental for designing modern electric vehicles. I...
This work summarizes the findings resulting from applying an aging modeling approach to four differe...
Predicting the performance of Li-ion batteries over lifetime is necessary for design and optimal ope...
International audienceBeing able to predict the Li-ion battery degradation is necessary for applicat...
This work combines recent capacity performance-based models for of NCM-LMO Li-ion variant batteries ...
With the increasing demand for high energy density and high-power density lithium-ion batteries for ...
Due to increasing gas prices and the dwindling of our planet’s finite oil resources, the hope for th...
The work provides a study on the development of algorithms which estimate the degradation rate of ba...
Renewable energy sources, although they are quickly increasing their share in the energy mix, face a...
Renewable sources are seasonal and cannot be considered as available energy source as their generati...
Many researchers have worked to develop methods to analyze and characterize capacity fade in lithium...
International audienceThis paper shows that the way of charging electric vehicle influences the batt...
The presence of lithium-ion batteries has been steadily growing in stationary and mobile application...
Battery aging is one of the critical problems to be tackled in battery research, as it limits the po...