Journal
JOURNAL OF POWER SOURCES
Volume 390, Issue -, Pages 286-296Publisher
ELSEVIER SCIENCE BV
DOI: 10.1016/j.jpowsour.2018.04.033
Keywords
Batteries; Electrochemical energy storage systems; Energy management; Fractional-order models; Supercapacitors
Funding
- Swedish Energy Agency [39786-1]
- Fundamental Research Funds for the Central Universities, China [106112017CDJQJ338811, 106112016CDJXZ338822]
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Electrochemical energy storage systems play an important role in diverse applications, such as electrified transportation and integration of renewable energy with the electrical grid. To facilitate model-based management for extracting full system potentials, proper mathematical models are imperative. Due to extra degrees of freedom brought by differentiation derivatives, fractional-order models may be able to better describe the dynamic behaviors of electrochemical systems. This paper provides a critical overview of fractional-order techniques for managing lithium-ion batteries, lead-acid batteries, and supercapacitors. Starting with the basic concepts and technical tools from fractional-order calculus, the modeling principles for these energy systems are presented by identifying disperse dynamic processes and using electrochemical impedance spectroscopy. Available battery/supercapacitor models are comprehensively reviewed, and the advantages of fractional types are discussed. Two case studies demonstrate the accuracy and computational efficiency of fractional-order models. These models offer 15-30% higher accuracy than their integer-order analogues, but have reasonable complexity. Consequently, fractional-order models can be good candidates for the development of advanced battery/supercapacitor management systems. Finally, the main technical challenges facing electrochemical energy storage system modeling, state estimation, and control in the fractional-order domain, as well as future research directions, are highlighted.
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