2016
DOI: 10.3390/en9110865
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Modeling of a Pouch Lithium Ion Battery Using a Distributed Parameter Equivalent Circuit for Internal Non-Uniformity Analysis

Abstract: A battery model that has the capability of analyzing the internal non-uniformity of local state variables, including the state of charge (SOC), temperature and current density, is proposed in this paper. The model is built using a set of distributed parameter equivalent circuits. In order to validate the accuracy of the model, a customized battery with embedded T-type thermocouple sensors inside the battery is tested. The simulated temperature conforms well with the measured temperature at each test point, and… Show more

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Cited by 22 publications
(12 citation statements)
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“…Supposing the heat conduction is the main heat transfer type, heat generation is evenly distributed within the battery, and further the temperatures of both battery surface and interior are uniform, then a popular two-stage thermal model for battery cell [31][32][33] can be derived as…”
Section: Battery Thermal Modelmentioning
confidence: 99%
“…Supposing the heat conduction is the main heat transfer type, heat generation is evenly distributed within the battery, and further the temperatures of both battery surface and interior are uniform, then a popular two-stage thermal model for battery cell [31][32][33] can be derived as…”
Section: Battery Thermal Modelmentioning
confidence: 99%
“…However, instead of dividing the overpotential at a fixed time point by the magnitude of the current pulse to obtain the internal resistance of the cell, an equivalent circuit model (ECM) is fitted to the whole response. ECMs are a relatively simple lumped parameter model ubiquitous in estimation algorithms for describing LIB electrochemical behaviour in real time [44][45][46][47]. Whilst this does increase the measurement calculation complexity, it improves the measurement accuracy [42].…”
Section: Measuring Internal Resistancementioning
confidence: 99%
“…Instead of dividing the overpotential at a fixed time point by the magnitude of the current pulse to obtain the internal resistance of the cell, an equivalent circuit model (ECM) is fitted to a more dynamic (in amplitude and frequency) response. ECMs are a relatively simple lumped parameter model ubiquitous in estimation algorithms for describing lithium ion batteries electrochemical behaviour in real time [30][31][32][33]. Whilst this does increase the measurement calculation complexity, it improves the model accuracy [28].…”
Section: A Pulse Multisinementioning
confidence: 99%