Cycle Life Evaluation for Lithium-Ion Capacitors

Mahdi Soltani, Joris Jaguemont, Noshin Omar, Jan Ronsmans, Peter Van Den Bossche, Joeri Van Mierlo

Onderzoeksoutput: Conference paper

4 Citaten (Scopus)

Samenvatting

Lithium-ion capacitor (LiC) is a hybrid energy storage device which compounds the energy storage mechanisms of lithium-ion batteries (LIBs) and electric double-layer capacitors (EDLCs). Its structure is composed of a positive electrode with activated carbon as in double-layer capacitor and a negative electrode based on Li-doped carbon like the Li-ion battery. The advantage of the LiC technology compared to the conventional storage device is because of the power density, the nominal voltage, and the energy density is higher than the EDLCs. Due to their inherent long cycle life, it is indispensable to predict the cycle life of this cell type. The objective of this paper is to investigate the capacitance degradation of LiCs by calendar life test and power-cycling test. In the calendar life test, the degradation is measured at different floating voltages and temperatures. In the power cycling test, the degradation corresponding to the current level and the temperature is evaluated. The resulting capacitance retention trends declare a dependency to temperature, SoC, and current levels.
Originele taal-2English
TitelEVS30 Symposium
UitgeverijAVERE
Pagina's1-7
Aantal pagina's7
StatusPublished - 9 okt 2017
EvenementEVS30: Electric Vehicle Symposium - Stuttgart, Germany
Duur: 9 okt 201711 okt 2017
http://www.messe-stuttgart.de/en/evs30/

Conference

ConferenceEVS30
Verkorte titelEVS30
Land/RegioGermany
StadStuttgart
Periode9/10/1711/10/17
Internet adres

Bibliografische nota

Mahdi Soltani received his M.Sc. degree in Electrical Engineering from K. N. Toosi University of technology, Tehran, Iran. He has experience in hybrid electric vehicles research groups in Tehran for several years. He is currently pursuing a Ph.D in Engineering Science at ETEC, in MOBI’s Battery Innovation Center, Vrije Universiteit Brussel. His Ph.D work focuses on advanced modelling techniques for lithium-ion capacitor technology for various applications.

Keywords

  • Lithium ion capacitor
  • Battery Model
  • cycle life
  • state of charge
  • calendar life

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