LEADER 04412nam  2200997z- 450 
001 9910557544203321
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035   $a(CKB)5400000000044165
035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/69360
035   $a(EXLCZ)995400000000044165
100   $a20202105d2020      |y             0
101 0 $aeng
135   $aurmn|---annan
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 10$aIntegration of Renewable and Distributed Energy Resources in Power Systems
210   $aBasel, Switzerland$cMDPI - Multidisciplinary Digital Publishing Institute$d2020
215   $a1 electronic resource (228 p.)
311   $a3-03943-487-X 
311   $a3-03943-488-8 
330   $aThe electric power sector is poised for transformative changes. Improvements in the cost and performance of a range of distributed energy generation (DG) technologies and the potential for breakthroughs in distributed energy storage (DS) are creating new options for onsite power generation and storage, driving increasing adoption and impacting utility distribution system operations. In addition, changing uses and use patterns for electricity?from plug-in electric vehicles (EVs) to demand response (DR)?are altering demands placed on the electric power system. Finally, the infusion of new information and communications technology (ICT) into the electric system and its markets is enabling the collection of immense volumes of data on power sector operations and use; unprecedented control of generation, networks, and loads; and new opportunities for the delivery of energy services. In this Special Issue of Energies, research papers on topics related to the integration of distributed energy resources (DG, DS, EV, and DR) are included. From technologies to software tools to system-wide evaluations, the impacts of all aforementioned distributed resources on both operation and planning are examined.
606   $aHistory of engineering & technology$2bicssc
610   $amachine learning
610   $amicrogrids
610   $aoptimisation methods
610   $apower systems
610   $areinforcement learning
610   $ahigh penetration
610   $arenewable energy
610   $aadaptability planning
610   $asource-grid coordination
610   $arenewable electricity distribution for public space
610   $asustainability assessment model
610   $aintegrated assessment for public space
610   $atripartite altruism
610   $aurban renewable energy
610   $aecological infrastructures
610   $aMicro-grids
610   $acontinuity of supply
610   $apower distribution
610   $apower system planning
610   $adecentralized control
610   $asmall hydropower plants
610   $amicrogrid
610   $aemergency control
610   $arecloser
610   $asynchronous coupler
610   $apower systems stability
610   $apower system operation
610   $apower system security
610   $arenewable energy integration
610   $aload flow analysis
610   $acongestion management
610   $adistributed generation curtailment
610   $ademand side management
610   $ademand response
610   $acyber-physical systems
610   $adynamic pricing
610   $aload forecasting
610   $aattack detection
610   $aphotovoltaics
610   $adistributed energy resources (DERs)
610   $agrid impact
610   $apower quality
610   $alow-voltage distribution network
610   $ainverter regulation
610   $aelectric vehicles
610   $auncontrolled charging
610   $adelayed charging
610   $acontrolled charging
610   $aV2G
610   $aV2B
610   $aV2H
610   $apeak shaving
610   $avalley filling
610   $arenewable energy sources
615  7$aHistory of engineering & technology
700   $aRomán$b Tomás Gómez San$4edt$01322291
702   $aÁvila$b José Pablo Chaves$4edt
702   $aRomán$b Tomás Gómez San$4oth
702   $aÁvila$b José Pablo Chaves$4oth
906   $aBOOK
912   $a9910557544203321
996   $aIntegration of Renewable and Distributed Energy Resources in Power Systems$93034765
997   $aUNINA