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Batteries and Supercapacitors Aging

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Electrochemical energy storage is a key element of systems in a wide range of sectors, such as electro-mobility, portable devices, and renewable energy. The energy storage systems (ESSs) considered here are batteries, supercapacitors, and hybrid components such as lithium-ion capacitors. The durability of ESSs determines the total cost of ownership, the global impacts (lifecycle) on a large portion of these applications and, thus, their viability. Understanding ESS aging is a key to optimizing their design and usability in terms of their intended applications. Knowledge of ESS aging is also essential to improve their dependability (reliability, availability, maintainability, and safety). This Special Issue includes 12 research papers and 1 review article focusing on battery, supercapacitor, and hybrid capacitor aging.

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Keywords

  • abuse test
  • accelerated ageing
  • ageing
  • Aging
  • aging mechanisms
  • aging model
  • ampere-hour throughput
  • autonomous devices
  • batteries
  • Battery
  • battery life testing
  • battery management system
  • battery management system (BMS)
  • calendar ageing
  • calendar aging
  • capacitance
  • cathode-electrolyte interphase
  • cell degradation
  • cycling ageing
  • degradation
  • driving cycles
  • electric vehicle
  • Electric vehicles
  • electrical characterization
  • electro mobility
  • Electrochemical impedance spectroscopy
  • embedded algorithm
  • fast-charging capability
  • floating aging
  • impedance spectroscopy
  • incremental capacity analysis
  • incremental capacity analysis (ICA)
  • lamination
  • langmuir isotherm
  • lead-acid batteries
  • LFP
  • Li-ion battery
  • LiFePO4
  • lifetime
  • lifetime prediction
  • lithium iron phosphate
  • lithium-ion
  • lithium-ion battery
  • lithium-ion capacitor
  • n/a
  • Ni-rich cathode
  • NMC
  • operative dependability
  • partial coulometric counter
  • Petri nets
  • post-mortem analysis
  • pseudo-charge
  • remaining capacity
  • Safety
  • second life battery
  • selection algorithm
  • self-discharge
  • state of health (SoH)
  • state-of-charge determination
  • state-of-charge monitoring
  • state-of-health
  • state-of-health (SOH)
  • supercapacitor
  • temperature
  • thermal runaway

Links

DOI: 10.3390/books978-3-03928-715-4

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