transient stability modeling using highly detailed synthetic...
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Transientstabilitymodelingusinghighlydetailedsyntheticelectricgridswithdistributionsystemapplications
TomOverbye,AdamBirchfield,TiXuTexasA&MUniversity
Overbye@tamu.edu,birchfieldllc@gmail.comAugust6,2019
TiXu,1988-2018• SomeoftheworkpresentedherewasdonebymyformergraduatestudentandpostdocTiXu
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Introduction• Ourmodernsocietydependsonreliableelectricity;largeblackoutscanbecatastrophic
• Interconnectedelectricgridsworld-wideareinaperiodofrapidtransition,withmuchofitatthedistributionleveland/orimpactinggriddynamics– Changingloadandgeneration,customerswithchoiceintheirelectricservice,inclusionofnewtechnologies
• Therearelotsofopportunitiesforinnovation!
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DataandModelAccessBarriers• Inmanyplacesworldwideaccesstodataabouttheactualpowergridisrestrictedbecauseofneedsforconfidentiality(e.g.,inUSCEII)– DataandmodelsaresometimesavailablethroughNDAs,butabilitytopublishanddistributedislimited
• Todoeffectiveresearchresearchersneedaccesstocommon,realisticgridmodelsanddatasets
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Solution:SyntheticElectricGrids• Syntheticelectricgridsarefictionalrepresentationsthatarefreefromconfidentialinformation
• OverthelastthreeyearstremendousprogresshasbeenmadethroughtheU.S.ARPA-Eincreatinglarge-scale,highquality,syntheticgridsatboththetransmissionanddistributionlevels
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Solution:SyntheticElectricGrids• Validationwithactualelectricgridsanddatasetshasbeenacrucialcomponentofthisresearch
• Goalisthatinnovationdonewiththesegridscanbedirectlyappliedtotheactualgrid
• Talkfocusesonrecentworkoncombinedtransmissionanddistributionsystemmodelswithdynamics
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ElectricGridTimeFrames7
Image source: P.W. Sauer, M.A. Pai, Power System Dynamics and Stability, 1997, Fig 1.2, modified
OurSyntheticGridApproach• Makegridsthatlookrealandfamiliarbysitingthemgeographically(NorthAmericaforus)andservingapopulationdensitythemimicsactual
• Goalistoleveragewidelyavailablepublicdata– Geographyandpopulationdensitynowdowntotheparcel– Loadbyutility(USFERC714),state-wideaverages– Existingandplannedgeneration(FormUSEIA-860,whichcontainslotsofgeneratorinformation)
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SyntheticModelDesignProcess9
The assumed peak load is based on population, scaled by geographic values
Much of this is automated, but there is still some manual adjustment
CurrentStatus:Transmission10
This is an 82,000 bus synthetic model that we publicly released in summer 2018 at electricgrids.engr.tamu.edu
Substation locations and the transmission system is entirely fictional (“realistic but not real”). Grid has an ac power flow solution with n-1 reliability
TheseGridsAlsohaveDynamicModels• ThisslidesshowsthefrequencyresponseofourUSWesterngridtoadoublegeneratoroutage;atfirstglanceitlooksliketheWECC
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GridDynamics12
Theseresultswerecreatedusinga70Kbussystemwithdetaileddynamicmodelsfor8000generators.Themodelsandallthedataassociatedwiththisimagearepublic
Thegridmodelisavailableatelectricgrids.engr.tamu.edu
MovingDowntotheIndividualMeters• Ourinitialworkstoppedatthe69kVlevel,andwasgeographicallyrealistictothezipcodelevel
• Ournewwork,partneringwithNREL,istocombinetransmissionmodelswithdistributionsystemmodelsthatsupplyelectricmeterslocatedatactualparcels
• Theresultantdistributionsystemstendtobequitegeographicallyrealistic
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Example:TravisCounty,TX14
This is a synthetic grid, but utilizing a quite realistic layout; blue is 230 kV, light green 69 kV, and lots of distribution lines down to hundreds of thousands of electric meters. This fall we will be doing all of Texas with about 10 million meters.
DistributionLevelDynamics• Theprimarydistributionleveltransientstabilitytimeframedynamicscomefromtheloadandthedistributedenergyresources(DERs)– Newmodelshavebeenintroducetorepresentvariousdistributiondrivendynamics
– ThecompositionandhencethedynamicsoftheloadandDERscanbehighlytime-varying
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CombinedTransmissionandDistribution• Withcompletemodelswecanstudywantpartsthesystemneedtobemodeledandatwhatdetail.Forexample– Transmissiononly– Distributiononly– Fullelectricalmodelsfortransmissionanddistribution– Fulltransmissionwithdetaileddistributiontopologyonlybutincludingattributeslikewhetheraparcelhaspv
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DevelopingTime-VaryingDynamics• Ourapproachtodevelopingtime-varyingdynamicsmodelsinthedistributionsystemistoassignattributestotheindividualelectricmetersandthendevelopthedynamicmodelsbottom-up.– Forexample,somemetershavePV;howmuchisondependsonsolarirradianceatthelocation;somehaveairconditioningwithamountdependentonambientconditions;somehaveelectricvehicles,etc.
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WhereWeAreGoing• Wearedevelopingasetoftime-varyingscenariosinwhichpotentialgridsofthefuturecanbetestedunderawide-varietyofdifferentconditions– Theywillbedrivenbytransientstabilityleveldynamicmodelsincludingdistributionleveldynamics
• Theenvironmentwillalsoallowteamstooperateanelectricgridunderawidevarietyofconditions
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TexasA&MControlRoomLaboratory19
• Thesimulationwillalsoallowforthetestingofdifferentpowersystemvisualizations
ThankYou!20
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