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EHV AC Undergrounding Electrical Power: Performance and Planning PDF

185 Pages·2010·3.83 MB·English
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Power Systems Roberto Benato · Antonio Paolucci EHV AC Undergrounding Electrical Power Performance and Planning 123 RobertoBenato,Asst.Prof. AntonioPaolucci,Prof. UniversitàdiPadova UniversitàdiPadova Dipto.IngegneriaElettrica Dipto.IngegneriaElettrica ViaGradenigo,6/A ViaGradenigo,6/A 35131Padova 35131Padova Italy Italy [email protected] ISSN 1612-1287 e-ISSN1860-4676 ISBN 978-1-84882-866-7 e-ISBN 978-1-84882-867-4 DOI 10.1007/978-1-84882-867-4 SpringerLondonDordrechtHeidelbergNewYork BritishLibraryCataloguinginPublicationData AcataloguerecordforthisbookisavailablefromtheBritishLibrary LibraryofCongressControlNumber:20109225418 ©Springer-VerlagLondonLimited2010 Apartfromanyfairdealingforthepurposesofresearchorprivatestudy,orcriticismorreview,asper- mittedundertheCopyright, DesignsandPatents Act1988,thispublication mayonlybereproduced, storedortransmitted,inanyformorbyanymeans,withthepriorpermissioninwritingofthepublish- ers,orinthecaseofreprographicreproductioninaccordancewiththetermsoflicensesissuedbythe CopyrightLicensingAgency.Enquiriesconcerningreproductionoutsidethosetermsshouldbesentto thepublishers. Theuseofregisterednames,trademarks,etc.,inthispublicationdoesnotimply,evenintheabsenceofa specificstatement,thatsuchnamesareexemptfromtherelevantlawsandregulationsandthereforefree forgeneraluse. Thepublisherandtheauthorsmakenorepresentation, expressorimplied,withregardtotheaccuracy oftheinformationcontainedinthisbookandcannotacceptanylegalresponsibilityorliabilityforany errorsoromissionsthatmaybemade. Coverdesign:deblik,Berlin,Germany Typesettingandproduction:le-texpublishingservicesGmbH,Leipzig,Germany Printedonacid-freepaper SpringerispartofSpringerScience+BusinessMedia(www.springer.com) tomy threewonderfulwomen Monica, IsabelMariaand LetiziaMaria Roberto tomy wife,my sonMarco andmydaughter Chiara Antonio Foreword ThisisatimeinwhichthedeploymentofHVandEHVinsulatedcablesystemsis exhibitingsignificantgrowthand,mostimportantly,whenseriousconsiderationis beinggiventotheadoptionofsuchsystemsinamuchgreatervarietyofcasesthan inthepast. Whatthisimpliesisthatinsulatedcablesarecurrentlylookeduponbyusersas an enabling network solution that can help them address effectively, rapidly and reliably a variety of complex problems, for example through the deployment of mixed overhead and underground lines, rather than, as was often the case in the past,anichesolutiontobeemployedonlywhenabsolutelyinevitable. This trend, driven by environmentalconcernswhich have made overheadlines less attractive,and facilitated by technologicalprogresswhichhas madeinsulated cablesmorecompetitive,requiresanongoingobjectiveevaluationofthepossibili- tiesofferedbymoderncableandmixedsystems. Against this background this book represents a timely and useful contribution towardsabetterunderstandingofthefactorsthatneedtobetakenintoconsideration whenintroducinginsulatedcablesystemsinthenetwork. Thebook’sthoroughcoverageofmanyoftheassociatedtechnicalaspects,cou- pled with its analysis of the broader economic, environmental and social factors involved,willcertainlybeofgreatinterestforcablesystemusers,cableengineers andstudentsofelectricalengineering. Milan,May2009 AldoBolza vii Preface Weshallnotceasefromexploration Andtheendofallourexploring Willbetoarrivewherewestarted Andknowtheplaceforthefirsttime. T.S.Eliot,FourQuartets InthedevelopmentoftheACpowersystems,longtransmissionlinesandoverhead lines(OHL)havebeenconsideredformanyyearsanindissolublebinomial,whereas theuseofHVandEHVinsulatedcableswasdevotedmostlytoDCsubmarinelinks; inthelastdecades,astrengthenedsensibilitytowardstheenvironment,withconse- quentbighindrancestoOHLinstallations,andanincreasedreliabilityofhighqual- ityextrudedinsulations(cross-linkedpolyethylene–XLPE)ofcableshaveinduced thetransmissionsystemplannersandgridownerstoinstallnumerousACHVand EHVcablelines:theyhaveunquestionablequalitiesofadaptabilitytotheproblems given by the territory when realizing modifications, widening or reinforcementof thetransmissionnetwork.Nowadays,inthejargonofelectricalengineering,words such as undergrounding,UGC (UndergroundCables) and mixed lines (a cascade compositionofOHLandUGC)haveaclearmeaning. The planningof any new line (OHL, UGC or mixed line) in the electricalgrid must be always validated by extensive network simulations, among which power flow,shortcircuit,transientanalyses;generallythosestudiesoughttobepreceded byapropedeuticalinvestigation,inordertoassistthesystemplannerintheconfigu- ration,comparisonandchoiceofthemoresuitablesolutions,chieflywhenthefield ofchoicecanbeverywideasintheinsulatedcablemarket.Infact,atargetofthis bookwasthedevelopmentofthispropedeuticalphaseregardingtheelectricenergy transmissionstandpointwithparticularattentiontotheoperatingrequirements. Startingfromtheclassicalequationsoftransmissionlines,developedmorethan a centuryago,andbyrearrangingthemwith originalprocedures,theauthorshave created some novel capability charts (for UGCs in Chapter 3, for mixed lines in Chapter4)whichimmediatelyvisualizethebestpossibleperformanceswithinthe limits of current and voltage compatible with the line lifetime and power quality. Thesecapabilitycharts(whichtakeintoaccountthesteadystateampacityandvolt- age levels, subtransient voltages, shunt compensation degree and other important parameters)areofprimaryimportance(inthesamewayofpowercirclediagrams): theyofferanoriginalandefficientguideextremelyusefulforboththeplanningof ix x Preface UGCormixedlinesystemsandafullcompatibilityoftheirinsertioninthepower network. Through the book, there are also several occasions of cultural widening in the fieldofthecircuittheory:oneofthemostmeaningfulcontributionsistherecovery ofOssanna’stheory,completelydevelopedin1926(andinthebooknewlypresented inSection3.9.2).Itgivesasimplebutextremelyelegantandpowerfulanalyticaldi- rectcomputationofthepossiblevoltageregimesobtainableinanyACpowersystem byfixingthecomplexpoweratoneofitsports,soavoidingtheiterativeprocedures uptillnowlargelyused.Thismethod,particularlyusefultocompletethelineperfor- manceanalysis,oughttobealsogenerallyappreciatedasoneofthemoreimportant toolinthecircuittheory. Also, the authors’ attemptin Chapter 6 of framing the economicalcomparison between UGC and OHL on an engineeringfair basis takes aim at helping the in- volvedstakeholderstoclearthefieldofsubjectiveimpressions. Briefly,thebookoffers: (cid:129) awidepanoramaofthelargeEHVcableinstallationswhichhasbeenenhanced bymeansofsomedetailedreportsofparadigmaticinstallations(Chapter1); (cid:129) anoutlineofpositivesequencemodellingtoanalysethesteadystateregimesof typicalOHLs,ofcross-bonded(withphasetranspositions)cablesystemsandof gasinsulatedlines(Chapter2); (cid:129) calltotheconstantuseofsomeinternationalrulesandnationalstandards; (cid:129) novelcapabilitycharts(withalotofexamplesbothforUGCsandmixedlines) which offer a throughoutvisualization of transmission line performancescom- patiblewithchosencurrentandvoltageconstraints; (cid:129) criteria regarding the energization and de-energization phenomena of no-load transmissionlines(UGCandmixedlines); (cid:129) criteria for the dimensioning and check of the shunt reactive compensation of UGC(uniformlyorlumped); (cid:129) commentsofeducationalpurposeonthephysicalmeaningofsomeformalana- lyticalexpressions; (cid:129) introduction to the multiconductor analy sis of undergrounding with self-made powerfrequencymatrixprocedures(Chapter5),whichallowsinvestigatingthe electrical behaviours of all cable conductors (phases and sheaths) with some case studies and offers the possibility of comparing and validating simplified approaches; (cid:129) a technical and economical comparat ive procedure between overhead and ca- blelineswhichcancontributetotheEnvironmentalImpactAssessmentrecom- mendedbytheEuropeancommunity(Chapter6). The authorshopeto havegiventhe electric engineersa modernand sound toolto facethechallengesofthefutureelectricalgridswheretheundergroundingwillplay akeyrole. Padova,June2009 RobertoBenatoandAntonioPaolucci Contents 1 HVCableWorldStatisticsandsomeLargeInstallations............ 1 1.1 Introduction ............................................... 1 1.2 StatisticsofCableInstalledLengths........................... 3 1.3 LargeInstallationsofEHVCableSystems ..................... 7 1.4 LandandSubmarine150kVACCableLinkSardinia–Corsica: SAR.CO .................................................. 7 1.5 TheMadrid“Barajas”AirportProject(Spain)................... 11 1.5.1 MilestonesoftheBarajasProject....................... 12 1.5.2 TechnicalCharacteristicsoftheLink.................... 12 1.5.3 TunnelandEarthingSystemCharacteristics.............. 12 1.5.4 PowerEHVCables................................... 14 1.5.5 CableLayingintheTunnel............................ 16 1.5.6 TheTransitionCompoundsandProtectionSchemes....... 17 1.6 380kVDouble-CircuitCableofMixedLineTurbigo–Rho(Italy) .. 19 1.6.1 MilestonesoftheTurbigo–RhoProject .................. 19 1.6.2 TheUndergroundingLinkoftheTurbigo–RhoMixedLine . 20 1.6.3 PowerEHVCables................................... 21 1.7 CableLaying .............................................. 23 1.7.1 TheTransitionCompoundsandProtectionSchemes....... 25 References..................................................... 27 2 ThePositiveSequenceModelofSymmetricalLines ................ 29 2.1 Introduction ............................................... 29 2.2 TheTransmissionMatrixofaUniformLine .................... 29 2.3 ComputationofSingle-CoreCableKilometricParameters ........ 33 2.3.1 Computationofr (Cable) ............................. 33 2.3.2 Computationof`(Cable) ............................. 34 2.3.3 Computationofc(Cable) ............................. 35 2.3.4 Computationofg(Cable) ............................. 36 2.4 ComputationofGILKilometricParameters .................... 37 2.4.1 ComputationofGILApparentKilometricResistancer .... 38 xi xii Contents 2.4.2 ComputationofGILKilometricInductance`............. 39 2.4.3 TheComputationofGILKilometricCapacitancec........ 41 2.4.4 ComputationofGILKilometricShuntConductanceg ..... 41 2.5 SomeOtherMatrixRelationsDerivingfromtheFundamentalOne . 41 2.6 CascadeConnectionsofTwoPortNetworks(TPN) .............. 42 2.7 ParallelConnectionofEqualTwoPortCircuitsThermally andElectricallyDecoupled .................................. 43 2.8 TheShuntReactiveCompensation ............................ 45 2.8.1 TheUniformlyDistributedCompensation ............... 45 2.8.2 TheLumpedCompensation ........................... 46 References..................................................... 48 3 OperatingCapabilityofLongACEHVPowerCables.............. 49 3.1 Introduction ............................................... 49 3.2 TheBasicConstraints....................................... 49 3.3 FirstAnalysis:U .ı/,I Constrained........................ 52 0S R 3.4 SecondAnalysis:U .#/,I Constrained ..................... 54 0S S 3.5 VoltagesandCurrentsAlongtheCable ........................ 55 3.6 PowerValuesCompatiblewithBasicConstraints andwithVoltageLevelsattheReceiving-End................... 57 3.7 No-LoadEnergizationandDe-Energization .................... 60 3.8 PowerCapabilityCharts..................................... 63 3.8.1 TheoreticalLimitsoftheLengthd ..................... 70 3.9 SteadyStateRegimesWithinPowerAreas ..................... 70 3.9.1 EnhancedCapabilityCharts ........................... 72 3.9.2 ApplicationofOssanna’sMethod....................... 75 3.10 CableswithGasInsulation(GILs) ............................ 78 3.11 RegimeswithU ¤230kV................................. 80 0S 3.12 “ReceivingArea”and“SendingArea”asSetIntersection......... 80 3.12.1 TheDeterminationoftheReceivingAreaasSetIntersection 81 3.12.2 TheDeterminationoftheSendingAreaasSetIntersection . 82 3.13 TheAnalysisAlongtheCablewithLumpedShuntCompensation.. 82 3.14 Conclusions ............................................... 86 References..................................................... 86 4 OperatingCapabilityofACEHVMixedLines withOverheadandCablesLinks................................. 89 4.1 Introduction ............................................... 89 4.2 MixedLines:OHL–UGC–OHL .............................. 90 4.3 TheTransmissionMatricesfortheSystemStudy ................ 92 4.4 FirstAnalysis.............................................. 92 4.5 SecondAnalysis ........................................... 94 4.6 TheCapabilityCharts....................................... 96 4.6.1 PhaseVoltageLevelsatR............................. 99 4.7 No-LoadEnergizationandDe-Energization .................... 99

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The selection and performance of insulated cables in electrical grids is a vital part of electric power transmission, but is often neglected in favour of a focus on technological construction. EHV AC Undergrounding Electrical Power discusses new methods of analysis for cable performance and for the
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