LEADER 06395nam  2201645z- 450 
001 9910372785803321
005 20210211
010   $a3-03921-869-7
035   $a(CKB)4100000010163768
035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/53426
035   $a(oapen)doab53426
035   $a(EXLCZ)994100000010163768
100   $a20202102d2020      |y         0
101 0 $aeng
135   $aurmn|---annan
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 00$aMicrogrids
210   $cMDPI - Multidisciplinary Digital Publishing Institute$d2020
215   $a1 online resource (108 p.)
311 08$a3-03921-868-9 
330   $aElectrical power systems are evolving at the generation, transmission, and distribution levels. At distribution level, small generating and storage units-the so-called distributed energy sources (DERs)-are being installed close to consumption sites. The expansion of DERs is empowering renewable energy source integration and, as a consequence, new actors are appearing in electrical systems. Among them, the prosumer is a game-changer; the fruit of the behavior transformation of the consumer who has not only the ability to consume power but also to produce it. Microgrids can be understood as DER installations that have the capability of both grid-connected and grid-isolated operation. During the last decades, there has been a significant deployment of microgrids (e.g., in countries like the United States, Switzerland, and Denmark) and a consequent increase in renewable energy generation. This is contributing to the decarbonization of electrical power systems. However, the variability and intermittency of renewable sources introduce uncertainty, which implies a more complex operation and control. Taking into account that existing and future planned microgrids are being/going to be interconnected to the current electrical network, challenges in terms of design, operation, and control at power system level need to be addressed, considering existing regulations.
606   $aHistory of engineering and technology$2bicssc
610   $aactive filter
610   $abattery storage
610   $abuck-boost converter
610   $achaos synchronization detection
610   $acombined power generation system
610   $acommunication delay
610   $acongestion problems
610   $acoordinated control
610   $acoordinated control strategy
610   $acoordinative optimization of energy
610   $acost and life
610   $acurrent harmonic reduction
610   $acurtailment
610   $adatacenter
610   $aDC architectures
610   $aDC distribution
610   $aDC microgrid
610   $adecision tree
610   $ademand-side management
610   $adeterministic optimization
610   $adevices scheduling
610   $adirect search method (DSM)
610   $adistributed energy resource
610   $adistributed energy resources
610   $adistributed energy resources (DERs)
610   $adistributed generation
610   $adistributed generation (DG)
610   $adistributed optimization
610   $adoubly fed induction machine
610   $adroop control
610   $aelectric energy market
610   $aelectric vehicle
610   $aelectric vehicle (EV)
610   $aembedded system
610   $aenergy efficiency
610   $aenergy management system
610   $aenergy storage
610   $aESS effective rate
610   $aextension theory
610   $aflexibility
610   $aflexible and configurable architecture
610   $aflexible generation
610   $aflywheel energy storage (FES)
610   $afrequency control
610   $ageneric object oriented substation event (GOOSE) communication
610   $agenetic algorithm
610   $agrid independence
610   $agrounding
610   $aHESS
610   $ahierarchical control scheme
610   $aIEC 61850
610   $aIEC 61850 Standard
610   $ainrush current
610   $aintegrated electrical and thermal grids
610   $aisolated grid
610   $aload frequency control (LFC)
610   $aload power sharing
610   $amaximum electrical efficiency
610   $amedium-voltage networks
610   $amesh configuration
610   $amicro-grid
610   $amicrogrid
610   $amicrogrid (MG)
610   $amicrogrid stability controller (MSC)
610   $amicrogrid test facility
610   $amicrogrids
610   $amulti-agent
610   $amultiresolution
610   $amultivariable generalized predictive control (MGPC)
610   $anetwork planning
610   $anonlinear programming
610   $aoperation
610   $aoptimal capacity
610   $aoptimal dispatch
610   $aoptimal power flow
610   $aoptimization
610   $aparticle swarm optimization
610   $apeak-cut
610   $apeak-shift
610   $aphotovoltaic feasibility
610   $aplug and play
610   $apower distribution
610   $apower quality
610   $apower quality disturbances
610   $apredictive control
610   $aradial configuration
610   $aregular EV
610   $areliability
610   $areliability evaluation
610   $arenewable
610   $arenewable energy source
610   $arenewable sources
610   $aresidential power systems
610   $aresidential users
610   $aruleless EV
610   $aS-transform
610   $asmall-scale standalone microgrid
610   $asmart grid
610   $asmart grids
610   $asmart inverter
610   $asmoothing wind power
610   $asolid oxide fuel cell
610   $astochastic optimization
610   $astorage systems
610   $atechnical and economic optimization
610   $atelecommunication power management
610   $atotal sliding-mode control
610   $avehicle information system
610   $avehicle-to-grid
610   $avehicle-to-grid (V2G)
615  7$aHistory of engineering and technology
700   $aGuerrero$b Josep M$4auth$01275734
906   $aBOOK
912   $a9910372785803321
996   $aMicrogrids$93025918
997   $aUNINA