Benefits and Challenges of the Kinetic Battery Model in System-Level Storage Unit Simulations

Dicke P, Resch S, Steinbacher F, Luther M, German R (2020)

Publication Language: English

Publication Type: Conference contribution, Conference Contribution

Publication year: 2020

Pages Range: 63-70

Event location: Brisbane AU

ISBN: 9781450377034

DOI: 10.1145/3408066.3408072

Abstract

The Kinetic Battery Model is a well received and frequently utilized modeling approach to simulate batteries. In combination with an equivalent circuit model it is possible to account for various non-linear effects of the battery's behavior and improve the current-voltage representation accuracy. However, this coupled approach has not been applied to model storage units on a system level yet, i.e., storage devices of large capacities which are subject to more complex control algorithms via battery management systems.
Therefore, in this work we present a method to apply this hybrid model to a valve-regulated lead-acid home-storage system. We outline difficulties arising in the parametrization process, extend the approach by implementing a straightforward control logic and compare the simulation results to an implementation with a solitary equivalent circuit model. Hence, we discuss thoroughly the benefits and challenges utilizing the concept to adequately simulate larger storing units.

Authors with CRIS profile

Paul Dicke Computer Science 7 (Computer Networks and Communication Systems) Simon Resch Lehrstuhl für Elektrische Energiesysteme Matthias Luther Lehrstuhl für Elektrische Energiesysteme Reinhard German Computer Science 7 (Computer Networks and Communication Systems)

Related research project(s)

Multi Battery Systems - Hybrid and New Storage Simulation Tool (Multi Battery Systems (MBS)) May 1, 2017 - April 30, 2020

Involved external institutions

Siemens AG, Sector Corporate Technology DE Germany (DE)

How to cite

APA:

Dicke, P., Resch, S., Steinbacher, F., Luther, M., & German, R. (2020). Benefits and Challenges of the Kinetic Battery Model in System-Level Storage Unit Simulations. In Association for Computing Machinery (Eds.), Proceedings of the 12th International Conference on Computer Modeling and Simulation (ICCMS 2020) (pp. 63-70). Brisbane, AU.

MLA:

Dicke, Paul, et al. "Benefits and Challenges of the Kinetic Battery Model in System-Level Storage Unit Simulations." Proceedings of the 12th International Conference on Computer Modeling and Simulation (ICCMS 2020), Brisbane Ed. Association for Computing Machinery, 2020. 63-70.

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