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Climate change is becoming visible today, and so this book—through including innovative solutions and experimental research as well as state-of-the-art studies in challenging areas related to sustainable energy development based on hybrid energy systems that combine renewable energy systems with fuel cells—represents a useful resource for researchers in these fields. In this context, hydrogen fuel cell technology is one of the alternative solutions for the development of future clean energy systems. As this book presents the latest solutions, readers working in research areas related to the above are invited to read it.

Research & information: general --- Technology: general issues --- fuel cell powered vehicle --- medium- and heavy-duty trucks --- component sizing --- ownership cost --- optimization --- hybrid power systems --- renewable energy sources --- fuel cell systems --- required-power-following control --- fuel economy --- permanent magnet synchronous generator --- fault ride-through --- interval type-2 fuzzy logic system --- wind energy conversion --- proton exchange membrane fuel cell --- hydrogen economy --- fueling flows control --- global extremum seeking --- load following --- matlab --- simulink --- real-time capability --- dynamic fuel cell model --- electricity distribution networks --- optimal capacitor allocation --- Genetic Algorithm --- Particle Swarm Optimization --- Bat Algorithm --- Whale Algorithm --- Sperm-Whale Algorithm --- alternative energy --- energy efficiency --- fuel cell --- hydrogen energy --- stationary application --- electrical vehicle --- AC charging station in mode 3 --- PLC --- steam methane reforming --- steam methanol reforming --- electrical efficiency --- exergy efficiency --- LNG --- Stirling engine --- solar concentrator --- automation system --- human–machine interface --- sensors --- direct methanol fuel cell --- multi stacks --- portable power --- energy management system --- Internet of Things --- long-term --- in-field test

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The climate changes that are visible today are a challenge for the global research community. In this context, renewable energy sources, fuel cell systems, and other energy generating sources must be optimally combined and connected to the grid system using advanced energy transaction methods. As this book presents the latest solutions in the implementation of fuel cell and renewable energy in mobile and stationary applications such as hybrid and microgrid power systems based on energy internet, blockchain technology, and smart contracts, we hope that they are of interest to readers working in the related fields mentioned above.

irrigation system --- photovoltaic water pumping systems (PWPS) --- floating photovoltaic panels --- SCADA --- blockchain --- SolarCoin --- power factor --- reactive power --- capacitance --- harmonics --- telemetry --- Industry 4.0 --- battery management --- electric vehicle --- state of charge estimation --- Internet of Things --- smart contract --- Ethereum --- IOTA --- artificial intelligence --- information security --- UN sustainable development goals --- UN SDGs --- carbon trading --- dApp --- M2V --- IPFS --- charging scheduling --- Great-Circle Distance --- local electricity market --- smart grids --- energy crowdsourcing --- renewable energy sources --- prosumers --- blockchain technology --- energy poverty --- smart contracts --- hybrid power system --- nano-grid --- fuel cell --- fuel economy --- power tracking --- optimization --- droop control --- mesh microgrids --- power sharing --- synchronization --- system stability --- robustness analysis --- constant power load --- reconfiguration --- controller design analysis --- networked control systems (NCSs) --- network security --- delays --- sampling --- energy grids --- energy producers --- cold spinning reserve --- DLT --- brokerage --- SMEs --- energy optimisation --- interleaved boost converter --- DC/DC converter --- hybrid electric boat --- energy storage system (ESS) --- RST control

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This book presents the latest solutions in fuel cell (FC) and renewable energy implementation in mobile and stationary applications. The implementation of advanced energy management and optimization strategies are detailed for fuel cell and renewable microgrids, and for the multi-FC stack architecture of FC/electric vehicles to enhance the reliability of these systems and to reduce the costs related to energy production and maintenance. Cyber-security methods based on blockchain technology to increase the resilience of FC renewable hybrid microgrids are also presented. Therefore, this book is for all readers interested in these challenging directions of research.

mobile charging station --- electric vehicle --- operational mode --- location-allocation problem --- battery --- capacitor --- differential flatness --- double-layer capacitor --- energy management --- interleaved converter --- nonlinear control --- second order equation --- supercapacitor --- multi-stack --- Polymer Electrolyte Membrane Fuel Cell (PEMFC) --- power electronics --- stability analysis --- microgrid --- LQR-PI control --- grid-tied mode --- current imbalance --- power quality --- genetic algorithms --- renewable energy --- consumer planning --- real-time strategy --- consumption monitoring --- energy storage systems --- renewable energy sources --- dynamic programming --- cascaded multilevel inverter --- photovoltaic --- leakage current --- IoT security --- Internet of Vehicles --- IoV --- connected car --- Blockchain Governance Game --- mixed game --- stochastic model --- fluctuation theory --- 51 percent attack --- double feed induction generator --- grid frequency and amplitude support --- smart grid --- wind technology (WT) --- load frequency control --- optimization issue --- moth flame optimizer (MFO) --- Harris hawks optimizer (HHO) --- fuel economy --- load-following --- switching strategy --- real-time optimization --- fuel cell vehicle --- fuel cell system --- automatic generation control --- controllers --- optimization techniques --- multisource power system --- interconnected power system --- hybrid gravitational with fire fly algorithm --- gravitational search algorithm --- firefly algorithm

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• Reference Manager
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This book presents the latest solutions in fuel cell (FC) and renewable energy implementation in mobile and stationary applications. The implementation of advanced energy management and optimization strategies are detailed for fuel cell and renewable microgrids, and for the multi-FC stack architecture of FC/electric vehicles to enhance the reliability of these systems and to reduce the costs related to energy production and maintenance. Cyber-security methods based on blockchain technology to increase the resilience of FC renewable hybrid microgrids are also presented. Therefore, this book is for all readers interested in these challenging directions of research.

Technology: general issues --- Energy industries & utilities --- mobile charging station --- electric vehicle --- operational mode --- location-allocation problem --- battery --- capacitor --- differential flatness --- double-layer capacitor --- energy management --- interleaved converter --- nonlinear control --- second order equation --- supercapacitor --- multi-stack --- Polymer Electrolyte Membrane Fuel Cell (PEMFC) --- power electronics --- stability analysis --- microgrid --- LQR-PI control --- grid-tied mode --- current imbalance --- power quality --- genetic algorithms --- renewable energy --- consumer planning --- real-time strategy --- consumption monitoring --- energy storage systems --- renewable energy sources --- dynamic programming --- cascaded multilevel inverter --- photovoltaic --- leakage current --- IoT security --- Internet of Vehicles --- IoV --- connected car --- Blockchain Governance Game --- mixed game --- stochastic model --- fluctuation theory --- 51 percent attack --- double feed induction generator --- grid frequency and amplitude support --- smart grid --- wind technology (WT) --- load frequency control --- optimization issue --- moth flame optimizer (MFO) --- Harris hawks optimizer (HHO) --- fuel economy --- load-following --- switching strategy --- real-time optimization --- fuel cell vehicle --- fuel cell system --- automatic generation control --- controllers --- optimization techniques --- multisource power system --- interconnected power system --- hybrid gravitational with fire fly algorithm --- gravitational search algorithm --- firefly algorithm --- mobile charging station --- electric vehicle --- operational mode --- location-allocation problem --- battery --- capacitor --- differential flatness --- double-layer capacitor --- energy management --- interleaved converter --- nonlinear control --- second order equation --- supercapacitor --- multi-stack --- Polymer Electrolyte Membrane Fuel Cell (PEMFC) --- power electronics --- stability analysis --- microgrid --- LQR-PI control --- grid-tied mode --- current imbalance --- power quality --- genetic algorithms --- renewable energy --- consumer planning --- real-time strategy --- consumption monitoring --- energy storage systems --- renewable energy sources --- dynamic programming --- cascaded multilevel inverter --- photovoltaic --- leakage current --- IoT security --- Internet of Vehicles --- IoV --- connected car --- Blockchain Governance Game --- mixed game --- stochastic model --- fluctuation theory --- 51 percent attack --- double feed induction generator --- grid frequency and amplitude support --- smart grid --- wind technology (WT) --- load frequency control --- optimization issue --- moth flame optimizer (MFO) --- Harris hawks optimizer (HHO) --- fuel economy --- load-following --- switching strategy --- real-time optimization --- fuel cell vehicle --- fuel cell system --- automatic generation control --- controllers --- optimization techniques --- multisource power system --- interconnected power system --- hybrid gravitational with fire fly algorithm --- gravitational search algorithm --- firefly algorithm