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Analysis and Design of Hybrid Energy Storage Systems

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The most important environmental challenge today's society is facing is to reduce the effects of CO2 emissions and global warming. Such an ambitious challenge can only be achieved through a holistic approach, capable of tackling the problem from a multidisciplinary point of view. One of the core technologies called to play a critical role in this approach is the use of energy storage systems. These systems enable, among other things, the balancing of the stochastic behavior of Renewable Sources and Distributed Generation in modern Energy Systems; the efficient supply of industrial and consumer loads; the development of efficient and clean transport; and the development of Nearly-Zero Energy Buildings (nZEB) and intelligent cities. Hybrid Energy Storage Systems (HESS) consist of two (or more) storage devices with complementary key characteristics, that are able to behave jointly with better performance than any of the technologies considered individually. Recent developments in storage device technologies, interface systems, control and monitoring techniques, or visualization and information technologies have driven the implementation of HESS in many industrial, commercial and domestic applications. This Special Issue focuses on the analysis, design and implementation of hybrid energy storage systems across a broad spectrum, encompassing different storage technologies (including electrochemical, capacitive, mechanical or mechanical storage devices), engineering branches (power electronics and control strategies; energy engineering; energy engineering; chemistry; modelling, simulation and emulation techniques; data analysis and algorithms; social and economic analysis; intelligent and Internet-of-Things (IoT) systems; and so on.), applications (energy systems, renewable energy generation, industrial applications, transportation, Uninterruptible Power Supplies (UPS) and critical load supply, etc.) and evaluation and performance (size and weight benefits, efficiency and power loss, economic analysis, environmental costs, etc.).

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Keywords

  • active power control
  • battery energy storage system (BESS)
  • battery management system
  • buck-boost converter
  • DC power systems
  • electric vehicle (EV)
  • Energy Storage
  • energy storage system
  • energy storage technologies
  • fault ride-through capability
  • fuel cell (FC)
  • high gain converters
  • hybrid
  • hybrid energy storage systems (HESSs)
  • hybrid storage systems
  • lithium-ion batteries
  • load flow analysis
  • load modeling
  • micro combined heat and power (micro-CHP) system
  • microgrid
  • microgrids
  • multiport
  • photovoltaic
  • power electronic converters
  • power quality
  • power systems modeling
  • power-line signaling
  • pumped storage
  • rail transportation power systems
  • Real Coded Genetic Algorithm (RCGA)
  • Renewable energy sources
  • shipboard power systems
  • single-phase
  • smart home (SH)
  • solar photovoltaic
  • state of charge
  • Storage
  • storage operation and maintenance costs
  • ultracapacitors

Links

DOI: 10.3390/books978-3-03928-687-4

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