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Document type:
Zeitschriftenaufsatz 
Author(s):
Johannes Sturm, Sebastian Ludwig, Julius Zwirner, Conrado Ramirez-Garcia, B. Heinrich, Maximilian F. Horsche, Andreas Jossen 
Title:
[Preprint] Suitability of physicochemical models for embedded systems regarding a nickel-rich, silicon-graphite lithium-ion battery 
Abstract:
Local inhomogeneous electrode utilization in recent lithium-ion batteries tends to increase due to larger sizes and/or higher densification, which poses a challenge for accurate, model-based monitoring. Pseudo-two dimensional (p2D) physicochemical models (PCM) can offer such locality via calculating local potentials and concentrations through the thickness of the electrode stack and are numerically reduced for implementation in a microcontroller in this work. Finite difference method combined wi...    »
 
Keywords:
Model reduction; Pseudo-two dimensional model; Microcontroller; Nickel-rich; Graphite-silicon composite 
Dewey Decimal Classification:
620 Ingenieurwissenschaften 
Horizon 2020:
This work has received funding from the European Union's Horizon 2020 research and innovation programme under the grant 'Electric Vehicle Enhanced Range, Lifetime And Safety Through INGenious battery management' [EVERLASTING-713771]. 
Journal title:
[PrePrint] Suitability of physicochemical models for embedded systems regarding a nickel-rich, silicon-graphite lithium-ion battery 
Year:
2019 
Year / month:
2019-07 
Quarter:
3. Quartal 
Month:
Jul 
Journal issue:
436 
Pages contribution:
226834 
Covered by:
Scopus 
Reviewed:
ja 
Language:
en 
Publisher:
Elsevier 
Status:
Preprint / submitted 
Accepted:
30.06.2019 
Date of publication:
09.07.2019 
Semester:
SS 19 
TUM Institution:
Lehrstuhl für Elektrische Energiespeichertechnik (EES) 
Format:
Bild/Text 
Ingested:
18.07.2019 
CC license:
by-nc-nd, http://creativecommons.org/licenses/by-nc-nd/3.0/de