2018
DOI: 10.1016/j.energy.2017.11.154
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A comprehensive model for lithium-ion batteries: From the physical principles to an electrical model

Abstract: The growing interest in e-mobility and the increasing installation of renewable energy-based systems are leading to rapid improvements in lithium-ion batteries. In this context, battery manufacturers and engineers require advanced models in order to study battery performance accurately. A number of Li-ion battery models are based on the representation of physical phenomena by electrochemical equations. Although providing detailed physics-based information, these models cannot take into account all the phenomen… Show more

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Cited by 90 publications
(52 citation statements)
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“…The equivalent-circuit representation consists of a voltage source associated with the electrochemical equilibrium voltage and three resistors that represent different electrochemical processes: ohmic losses, charge transfer, and membrane diffusion. In this section we describe each of the elements and its correspondence with the underlying electrochemical phenomena based on the experimentally validated model of Berrueta et al [14].…”
Section: Battery Electrochemical Modelmentioning
confidence: 99%
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“…The equivalent-circuit representation consists of a voltage source associated with the electrochemical equilibrium voltage and three resistors that represent different electrochemical processes: ohmic losses, charge transfer, and membrane diffusion. In this section we describe each of the elements and its correspondence with the underlying electrochemical phenomena based on the experimentally validated model of Berrueta et al [14].…”
Section: Battery Electrochemical Modelmentioning
confidence: 99%
“…For the calculations presented in the following sections, the battery modeled will be that presented in [14], with 40 Ah and 133 V. A constant battery temperature of 25 • C will be assumed. The SOC and the current will be considered control variables because they directly relate to the stored energy and the power requested from the battery.…”
Section: B Resistive Elementsmentioning
confidence: 99%
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“…Considering the current state of energy storage technologies, lithium‐ion batteries (LIBs) have become prominent more and more because of having constant improvements in terms of cycle life, safety, low self‐discharge rate, and functional features of power and energy density. () Different from other system components such as generators and transformers, LIB storage systems are exposed to aging caused by complicated physical change and chemical reactions, which inevitably leads to capacity and power fade . Without losing generality, the aging of BESS could be written as superposition of two effects as (i) calendar aging and (ii) cycle aging .…”
Section: Related Workmentioning
confidence: 99%