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In recent years, lithium-ion batteries (LIBs) have been increasingly contributing to the development of novel engineering systems with energy storage requirements. LIBs are playing an essential role in our society, as they are being used in a wide variety of applications, ranging from consumer electronics, electric mobility, renewable energy storage, biomedical applications, or aerospace systems. Despite the remarkable achievements and applicability of LIBs, there are several features within this technology that require further research and improvements. In this book, a collection of 10 original research papers addresses some of those key features, including: battery testing methodologies, state of charge and state of health monitoring, and system-level power electronics applications. One key aspect to emphasize when it comes to this book is the multidisciplinary nature of the selected papers. The presented research was developed at university departments, institutes and organizations of different disciplines, including Electrical Engineering, Control Engineering, Computer Science or Material Science, to name a few examples. The overall result is a book that represents a coherent collection of multidisciplinary works within the prominent field of LIBs.

electric wheelchair --- lithium-ion battery --- supercapacitor --- semiactive hybrid energy storage system --- smart energy management system --- kinetic battery model --- lithium-ion batteries --- nonlinear capacity --- fractional calculus --- ultrasonic sensing --- health monitoring --- state of health --- failure indication --- data fusion --- temperature-dependent second-order RC model --- SOC estimation --- dual Kalman filter --- state of charge --- battery parameters identification --- equivalent circuit model --- battery equalization --- flyback transformer --- topology --- commercial Li-ion testing --- RPT --- CtcV --- cell-to-cell variations --- traction battery --- LiFePO4 --- short-circuit --- deep discharge --- damage recovery --- SOC --- second-order RC equivalent circuit model --- system noise covariance --- observation noise covariance --- AUKF --- battery modeling --- battery chargers --- power supplies --- resonant inverters --- phase control

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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.

Research & information: general --- battery energy storage --- renewable energy --- distribution network --- genetic algorithm --- particle swarm optimization --- electrolyte --- additive --- interface --- pseudocapacitance --- intercalation --- energy storage --- secondary battery --- sodium-ion --- lithium-ion battery --- traction battery --- waterjet-based recycling --- direct recycling --- life cycle assessment --- global warming potential --- electro-thermal model --- smart cell --- intelligent battery --- neural network --- temperature prediction --- DRT by time domain data --- pulse evaluation --- relaxation voltage --- online diagnosis --- degradation mechanisms --- EIS --- lead batteries --- safety concept --- safety battery --- battery monitoring --- electronic battery sensor --- failure modes --- failure distribution --- failure rates --- field battery investigation --- safe supply --- power supply system --- zinc ion batteries --- stationary energy storage --- polymer binder --- solvent --- doctor blade coating --- manganese dioxide --- mixing ratio --- electrochemical impedance spectroscopy --- SEM+EDX --- electrode fabrication --- lithium ion battery --- AC current injection --- bi-directional control --- charger --- lithium-ion battery cell --- volumetric expansion --- mechanical degradation --- state of charge dependency --- cell thickness --- mechanical aging --- non-uniform volume change --- solar photovoltaic energy --- redox flow battery --- residential load --- renewable energy integration --- battery sizing --- battery efficiency --- lithium battery --- temperature dependency --- ether based electrolyte --- insitu deposited lithium-metal electrode --- Coulombic efficiency --- lithium deposition morphology --- Li-ion battery --- thermal runaway --- model --- post-mortem analysis --- ecofriendly electrolyte for lithium-ion batteries --- increased thermal stability of electrolytes --- enhanced electrolyte safety based on high flash point --- tributylacetylcitrate --- acetyltributylcitrate --- electric vehicle battery --- disassembly --- disassembly planner design --- disassembly strategy optimization --- battery management system --- state monitoring --- state-of-charge --- digital twin --- battery model --- Doyle-Fuller-Newman model --- equivalent circuit model --- parameter estimation --- lithium-ion batteries --- temperature estimation --- sensorless temperature measurement --- artificial intelligence --- artificial neural network --- lithium-ion cells --- battery thermal management systems --- CFD simulations --- liquid cooling

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

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.

Research & information: general --- battery energy storage --- renewable energy --- distribution network --- genetic algorithm --- particle swarm optimization --- electrolyte --- additive --- interface --- pseudocapacitance --- intercalation --- energy storage --- secondary battery --- sodium-ion --- lithium-ion battery --- traction battery --- waterjet-based recycling --- direct recycling --- life cycle assessment --- global warming potential --- electro-thermal model --- smart cell --- intelligent battery --- neural network --- temperature prediction --- DRT by time domain data --- pulse evaluation --- relaxation voltage --- online diagnosis --- degradation mechanisms --- EIS --- lead batteries --- safety concept --- safety battery --- battery monitoring --- electronic battery sensor --- failure modes --- failure distribution --- failure rates --- field battery investigation --- safe supply --- power supply system --- zinc ion batteries --- stationary energy storage --- polymer binder --- solvent --- doctor blade coating --- manganese dioxide --- mixing ratio --- electrochemical impedance spectroscopy --- SEM+EDX --- electrode fabrication --- lithium ion battery --- AC current injection --- bi-directional control --- charger --- lithium-ion battery cell --- volumetric expansion --- mechanical degradation --- state of charge dependency --- cell thickness --- mechanical aging --- non-uniform volume change --- solar photovoltaic energy --- redox flow battery --- residential load --- renewable energy integration --- battery sizing --- battery efficiency --- lithium battery --- temperature dependency --- ether based electrolyte --- insitu deposited lithium-metal electrode --- Coulombic efficiency --- lithium deposition morphology --- Li-ion battery --- thermal runaway --- model --- post-mortem analysis --- ecofriendly electrolyte for lithium-ion batteries --- increased thermal stability of electrolytes --- enhanced electrolyte safety based on high flash point --- tributylacetylcitrate --- acetyltributylcitrate --- electric vehicle battery --- disassembly --- disassembly planner design --- disassembly strategy optimization --- battery management system --- state monitoring --- state-of-charge --- digital twin --- battery model --- Doyle-Fuller-Newman model --- equivalent circuit model --- parameter estimation --- lithium-ion batteries --- temperature estimation --- sensorless temperature measurement --- artificial intelligence --- artificial neural network --- lithium-ion cells --- battery thermal management systems --- CFD simulations --- liquid cooling