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TY  - BOOK
ID  - 145172039
TI  - Battery Systems and Energy Storage beyond 2020
AU  - Birke, Kai Peter
AU  - Karabelli, Duygu
PY  - 2022
PB  - Basel MDPI - Multidisciplinary Digital Publishing Institute
DB  - UniCat
KW  - Research & information: general
KW  - battery energy storage
KW  - renewable energy
KW  - distribution network
KW  - genetic algorithm
KW  - particle swarm optimization
KW  - electrolyte
KW  - additive
KW  - interface
KW  - pseudocapacitance
KW  - intercalation
KW  - energy storage
KW  - secondary battery
KW  - sodium-ion
KW  - lithium-ion battery
KW  - traction battery
KW  - waterjet-based recycling
KW  - direct recycling
KW  - life cycle assessment
KW  - global warming potential
KW  - electro-thermal model
KW  - smart cell
KW  - intelligent battery
KW  - neural network
KW  - temperature prediction
KW  - DRT by time domain data
KW  - pulse evaluation
KW  - relaxation voltage
KW  - online diagnosis
KW  - degradation mechanisms
KW  - EIS
KW  - lead batteries
KW  - safety concept
KW  - safety battery
KW  - battery monitoring
KW  - electronic battery sensor
KW  - failure modes
KW  - failure distribution
KW  - failure rates
KW  - field battery investigation
KW  - safe supply
KW  - power supply system
KW  - zinc ion batteries
KW  - stationary energy storage
KW  - polymer binder
KW  - solvent
KW  - doctor blade coating
KW  - manganese dioxide
KW  - mixing ratio
KW  - electrochemical impedance spectroscopy
KW  - SEM+EDX
KW  - electrode fabrication
KW  - lithium ion battery
KW  - AC current injection
KW  - bi-directional control
KW  - charger
KW  - lithium-ion battery cell
KW  - volumetric expansion
KW  - mechanical degradation
KW  - state of charge dependency
KW  - cell thickness
KW  - mechanical aging
KW  - non-uniform volume change
KW  - solar photovoltaic energy
KW  - redox flow battery
KW  - residential load
KW  - renewable energy integration
KW  - battery sizing
KW  - battery efficiency
KW  - lithium battery
KW  - temperature dependency
KW  - ether based electrolyte
KW  - insitu deposited lithium-metal electrode
KW  - Coulombic efficiency
KW  - lithium deposition morphology
KW  - Li-ion battery
KW  - thermal runaway
KW  - model
KW  - post-mortem analysis
KW  - ecofriendly electrolyte for lithium-ion batteries
KW  - increased thermal stability of electrolytes
KW  - enhanced electrolyte safety based on high flash point
KW  - tributylacetylcitrate
KW  - acetyltributylcitrate
KW  - electric vehicle battery
KW  - disassembly
KW  - disassembly planner design
KW  - disassembly strategy optimization
KW  - battery management system
KW  - state monitoring
KW  - state-of-charge
KW  - digital twin
KW  - battery model
KW  - Doyle-Fuller-Newman model
KW  - equivalent circuit model
KW  - parameter estimation
KW  - lithium-ion batteries
KW  - temperature estimation
KW  - sensorless temperature measurement
KW  - artificial intelligence
KW  - artificial neural network
KW  - lithium-ion cells
KW  - battery thermal management systems
KW  - CFD simulations
KW  - liquid cooling
KW  - battery energy storage
KW  - renewable energy
KW  - distribution network
KW  - genetic algorithm
KW  - particle swarm optimization
KW  - electrolyte
KW  - additive
KW  - interface
KW  - pseudocapacitance
KW  - intercalation
KW  - energy storage
KW  - secondary battery
KW  - sodium-ion
KW  - lithium-ion battery
KW  - traction battery
KW  - waterjet-based recycling
KW  - direct recycling
KW  - life cycle assessment
KW  - global warming potential
KW  - electro-thermal model
KW  - smart cell
KW  - intelligent battery
KW  - neural network
KW  - temperature prediction
KW  - DRT by time domain data
KW  - pulse evaluation
KW  - relaxation voltage
KW  - online diagnosis
KW  - degradation mechanisms
KW  - EIS
KW  - lead batteries
KW  - safety concept
KW  - safety battery
KW  - battery monitoring
KW  - electronic battery sensor
KW  - failure modes
KW  - failure distribution
KW  - failure rates
KW  - field battery investigation
KW  - safe supply
KW  - power supply system
KW  - zinc ion batteries
KW  - stationary energy storage
KW  - polymer binder
KW  - solvent
KW  - doctor blade coating
KW  - manganese dioxide
KW  - mixing ratio
KW  - electrochemical impedance spectroscopy
KW  - SEM+EDX
KW  - electrode fabrication
KW  - lithium ion battery
KW  - AC current injection
KW  - bi-directional control
KW  - charger
KW  - lithium-ion battery cell
KW  - volumetric expansion
KW  - mechanical degradation
KW  - state of charge dependency
KW  - cell thickness
KW  - mechanical aging
KW  - non-uniform volume change
KW  - solar photovoltaic energy
KW  - redox flow battery
KW  - residential load
KW  - renewable energy integration
KW  - battery sizing
KW  - battery efficiency
KW  - lithium battery
KW  - temperature dependency
KW  - ether based electrolyte
KW  - insitu deposited lithium-metal electrode
KW  - Coulombic efficiency
KW  - lithium deposition morphology
KW  - Li-ion battery
KW  - thermal runaway
KW  - model
KW  - post-mortem analysis
KW  - ecofriendly electrolyte for lithium-ion batteries
KW  - increased thermal stability of electrolytes
KW  - enhanced electrolyte safety based on high flash point
KW  - tributylacetylcitrate
KW  - acetyltributylcitrate
KW  - electric vehicle battery
KW  - disassembly
KW  - disassembly planner design
KW  - disassembly strategy optimization
KW  - battery management system
KW  - state monitoring
KW  - state-of-charge
KW  - digital twin
KW  - battery model
KW  - Doyle-Fuller-Newman model
KW  - equivalent circuit model
KW  - parameter estimation
KW  - lithium-ion batteries
KW  - temperature estimation
KW  - sensorless temperature measurement
KW  - artificial intelligence
KW  - artificial neural network
KW  - lithium-ion cells
KW  - battery thermal management systems
KW  - CFD simulations
KW  - liquid cooling
UR  - https://www.unicat.be/uniCat?func=search&query=sysid:145172039
AB  - Currently, the transition from using the combustion engine to electrified vehicles is a matter of time and drives the demand for compact, high-energy-density rechargeable lithium ion batteries as well as for large stationary batteries to buffer solar and wind energy. The future challenges, e.g., the decarbonization of the CO2-intensive transportation sector, will push the need for such batteries even more. The cost of lithium ion batteries has become competitive in the last few years, and lithium ion batteries are expected to dominate the battery market in the next decade. However, despite remarkable progress, there is still a strong need for improvements in the performance of lithium ion batteries. Further improvements are not only expected in the field of electrochemistry but can also be readily achieved by improved manufacturing methods, diagnostic algorithms, lifetime prediction methods, the implementation of artificial intelligence, and digital twins. Therefore, this Special Issue addresses the progress in battery and energy storage development by covering areas that have been less focused on, such as digitalization, advanced cell production, modeling, and prediction aspects in concordance with progress in new materials and pack design solutions.
ER  -