06019nam 2201489z- 450 991063779290332120231214133633.03-0365-5770-9(CKB)5470000001631607(oapen)https://directory.doabooks.org/handle/20.500.12854/94524(EXLCZ)99547000000163160720202212d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierEmerging and Advanced Green Energy Technologies for Sustainable and Resilient Future GridBaselMDPI - Multidisciplinary Digital Publishing Institute20221 electronic resource (416 p.)3-0365-5769-5 This reprint presents various aspects of the future grid, which is the next generation of the electrical grid and will enable the smart integration of conventional, renewable, and distributed power generation, energy storage, transmission and distribution, and demand management. Renewable energy is crucial in transitioning to a less carbon-intensive economy and a more sustainable energy system. The high penetration and uncertain power outputs of renewable energy pose great challenges to the stable operation of energy systems. The deployment of the smart grid is revolutionary, and also imperative around the world. It involves and deals with multidisciplinary fields such as energy sources, control systems, communications, computational generation, transmission, distribution, customer operations, markets, and service providers. Smart grids are emerging in both developed and developing countries, with the aim of achieving a reliable and secure electricity supply. Smart grids will eventually require standards, policy, and a regulatory framework for successful implementation. This reprint addresses the emerging and advanced green energy technologies for a sustainable and resilient future grid, and provides a platform to enhance interdisciplinary research and share the most recent ideas.Technology: general issuesbicsscHistory of engineering & technologybicsscislanded modemicrogriddecentralized controlrobust trackinginvariant setthermal energy storageparabolic dishlatent heatphase change materialheat transfer fluidbio-inspired algorithmswireless sensor networkgenetic algorithmparticle swarm optimizationadvanced metering infrastructureblockchainEthereumisolated DC-DC converterphotovoltaicsLLC resonant converterdual-bridgewide voltage rangepower optimizercoordinated controlvehicle-to-gridprimary frequency controlsecondary frequency controlstate of chargedecentralizedSimulink modeldimensionality reductionsimple linear regressionmultiple linear regressionpolynomial regressionload forecastingVSC (voltage source converter)PLL (Phase-Locked Loop)weak gridsmall signal stabilityeigenvaluesdemand-side managementlow-power consumer electronic applianceslow-voltage distribution systemnon-intrusive identification of appliance usage patternspower qualitysmart hometrue power factortotal harmonic distortionrenewable energy sourcesenergy management systemcommunication technologiesmicrogrid standardsthird-order sliding mode controlasynchronous generatorsvariable speed dual-rotor wind turbinedirect field-oriented controlintegral-proportionaltransformerinternal fault currentsmagnetic inrush currentsextended Kalman filter (EKF) algorithmharmonic estimationDC microgridfaultclusterDC/DC converterfault current limiter (FCL)multi-objectiverenewable energyprofit-based schedulingEquilibrium Optimizersmart gridcampus microgridbatteriesprosumer marketdistributed generationrenewable energy resourcesenergy storage systemdistributed energy resourcesdemand responseload clustering techniquessizing methodologiesdigital signal processinggreen buildingsspectral analysisspectral kurtosislife-cycle costoptimal schedulingreinforcement learningenabling technologiesenergy communitysmart meternanogridplatformpower cloudTechnology: general issuesHistory of engineering & technologySalkuti Surender Reddyedt1294634Salkuti Surender ReddyothBOOK9910637792903321Emerging and Advanced Green Energy Technologies for Sustainable and Resilient Future Grid3023259UNINA