在tcv托卡马克中用中性束加热的一般性研究外文翻译.docx
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在tcv托卡马克中用中性束加热的一般性研究外文翻译.docx
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在tcv托卡马克中用中性束加热的一般性研究外文翻译
英文原文
AscopingstudyoftheapplicationofneutralbeamheatingontheTCVtokamak
AlexanderN.Karpushova,∗,BasilP.Duvala,RenéChavana,EmilianoFableb,Jean-MichelMayora,OlivierSautera,HenriWeisena
aEcolePolytechniqueFédéraledeLausanne(EPFL),CentredeRecherchesenPhysiquedesPlasmas,AssociationEuratom-ConfédérationSuisse,
CH-1015Lausanne,Switzerland
bMax-Planck-InstitutfürPlasmaphysik,Euratom-IPPAssociation,Boltzmannstra遝2,D-85748Garching,Germany
Articleinfo
Articlehistory:
Availableonline17March2011
Keywords:
TCVtokamakNeutralbeamheating
Abstract
TheTCVtokamakcontributestothephysicsunderstandingoffusionplasmas,broadeningtheparameterrangeofreactorrelevantregimes,byinvestigationsbasedonanextensiveuseoftheexistingmainexperimentaltools:
flexibleshapingandhighpowerrealtime-controllableelectroncyclotronheating(ECH)andcurrentdrive(ECCD)systems.AproposedimplementationofdirectionheatingontheTCVbytheinstallationofaneutralbeaminjection(NBI)withatotalpowerofwouldpermitanextensionoftheaccessiblerangeofiontoelectrontemperatures()towellbeyondunity,dependingontheNBI/ECHmixandtheplasmadensity.ANBIsystemwouldprovideTCVwithatoolforplasmastudyatreactorrelevantratios∼1andininvestigatingfastionandMHDphysicstogetherwiththeeffectsofplasmarotationandhighplasmaˇscenarios.ThefeasibilitystudiesforaNBIheatingonTCVpresentedinthispaperwereundertakentoconstructaspecificationfortheneutralbeaminjectorstogetherwithanexperimentalgeometryforpossibleoperationalscenarios.
1.Introduction
TCVisacompact(majorradius,minorradius,toroidalmagneticfield,plasmacurrentof),highelongated(vesselelongation3)toroidalfusionexperimentalmachine.Highpower,real-timecontrollable,injectionofwavesatthesecond(X2,3MW)andthird(X3,1.5MW)harmonicsofelectroncyclotronfrequencyconstitutetheprimarymethodofheating(ECH)anddrivingnon-inductivecurrent(ECCD)intheplasmawithelectrondensities,electrontemperatures,iontemperatures.TheflexibleplasmashapingandpowerfulECHsystemareusedtocontributeinmanyareasoftokamakresearch[1].
HighpowerX2-ECH,forrelativelylowdensityTCVplasmas,doesnotallowoperationatreactorrelevantratiosofiontoelectrontemperatures,astheelectron-ionclassicalCoulombcollisionthermalequilibrationtimeissignificantlylongerthanthecharacteristicconfinementtimes.ImplementationofdirectionheatingattheMWpowerlevelwouldallowtheextensionoftobeyondunityandfillthegapbetweenpresentpredominantlyelectronheatedexperimentsandfusionreactor[2].Theiontoelectrontemperatureratioisofparticularinterestintheprojectionofthetransportmechanismsfromexistingexperimentstoburningplasma.Theratioplaysakeyroleinthetransitionbetweeniontemperaturegradient(ITG)andtrappedelectron(TEM)modedominatedturbulentenergytransportmechanisms.IncreasingreducestheionandelectronenergytransportasobservedinDIII-DH-modeexperiments[3].NBIheatingmaythereforeallowTCVplasmastoreachhigherˇvalues,closetotheideallimitorbeyondathighelongation.
Injectionoffastatombeams(NBI)intotokamakisapossibleandwellusedmethodofauxiliaryheating.Followingionizationandcharge-exchange,fastatomsofthebeamaretrappedasplasmaionsandtransportenergyandmomentummainlytobulkionsifthefastionenergyisbelowcriticalenergy(Ecrit∼20forhydrogenbeamanddeuteriumplasma,)[4].TheproposedNBIsystemwouldthusalsoprovideTCVwithatooltoinvestigatefastionandrelatedMHDphysics[5]aswellasplasmarotationcontrol[6]forwhichTCVisalreadywelldiagnosed.ThebehaviouroftoroidalrotationinthevicinityofanITBisofparticularinterestbecauseofitsinfluenceontriggeringand/orsustainingthebarrier.TargetplasmascouldincludeITER-likeH-modeshapestogetherwithadvancedshapes,recentlyaccessibleonlyinohmicregimes【7】。
2.ScenariosofNBIheatingexperiments
ExperimentalscenariosfortheNBIexperimentsontheTCVarestronglylinkedtolimitationsimposedbyECHandECCD.FortheeITBsandfullynon-inductivescenariosonTCV,theaccessibleplasmadensityislimitedbytheX2cut-offincurrentdriveandelectronheatingexperiments.Conversely,efficientX3depositionisobtainedforelectrondensityintherangeofand
TheASTRAcode[8]wasusedtosimulatetheplasmaresponsetoneutralbeamheatinginthegeometryoftheTCVtokamak.ThecodesolvesequationsforelectronandiontemperatureandplasmacurrentdensitywiththeprescribedelectrondensityprofileandtotalplasmacurrenttakenfromTCVexperiment.Theuseoftheneoclassicalionheatconductivity[9]givesthatismatchedtotheCXRS[10]measurement.Theexperimentalelectronheatconductivitywasnormalisedtoobtaintheenergyconfinementtimepredictedbypowerlawscalings[11]:
IPB98(y,2)forELMyH-modeandstandardpowerlawregressionforL-mode.TheECpowerdepositionprofilewascalculatedbytheTORAYray-tracingcode.
2.1.HighdensityELMyH-moderegime
ThetargetparametersformodellingweretakenfromOhmicandX3heated(Table1,No.1.0)stationaryELMyH-modephasesofTCVdischarge[12].About95%ofinjecteddeuteriumNBpowercanbeabsorbedbytheplasmafortangentiallyinjectedbeam.Thesimulationsshowthatcanbeachievedwith∼0.8MWofNBIand1.3MWX3-ECH(Figs.1and2).Accesstoshouldbeattainableatincreased()NBorreducedX2-ECHpower.Thefastioncharge-exchange(CX)lossesonbackgroundneutralsstronglydependonthefirstwallrecyclingconditions,thedensityofbackgroundatoms,obtainedfromEIRENEmodelling,reducestheNBheatingefficiencyby∼15%(No.1.4),CXlossesonbeamneutralsareneglectable.
Athighplasmadensityandcurrent,neutralbeaminjectioncouldresultinanincreaseofthethermalfrom2.0(pure1.5MWX3-ECH)to2.6(2MWNBI),andcouldevenreachtheidealMHDlimit(∼3)resultingfromthefastparticlecontribution.Fastionslowingdowntimesinsuchregimesareoftheorderof,i.e.shorterorcomparablewiththebulkplasmaenergyconfinementtime,so,perturbationoftheionenergyMaxwelliandistributionbyfastionsisexpectedtobesmall(asinafusionreactor).
2.2.X2-ECandNBIheating
ModellingofNBheatinginlowdensityregimeswasperformedfor2MWX2-ECheatedL-modereferencedischarge(#31761,No.2.0).IncreaseoftheNBdepositedpowerperplasmaionatlowdensityresultsin∼2timeslower()thaninhighdensityregimeNBIpowerrequiredtoaccessof(scenarios2.1and2.2andFig.3).Near-normalNBinjectioncannotbeconsideredhereduetohighershine-throughlosses,resultinginfirstwalloverheatoftheTCVcentralcolumn.ASTRAsimulationsconfirmearlierexperimentalandnumericalstudiesoffastionorbitlossesontheTCV[13].Atlowplasmacurrent,fastionorbitlossesareextremelyimportantandbecomesubstantialforcounter-IpNBinjection(Fig.4);lossesincreaseathighionenergy(32%forD-NBand59%for,scenarios2.4and2.7)andforhigherNBatomicmass.
NBinjectionatlowplasmadensityandcurrentprovidesthepossibilitytostudythefastionandMHDphysics.Intheunfavourablescenario(like2.4),thedeliveredbytheNBpowerleadstothecreationofastrongfastionpopulationwithastoredenergyoffewtenskJthat,atlowcurrent,significantlycontributestotheidealMHDˇlimit.Fastparticleinstabilitieswoulddominatetheplasmabehaviourundertheseconditions[5].
3.Neutralbeamsinjectionlayout
TCVwasnotoriginallydesignedforneutralbeamheatingalthoughseveralrelativelywidemachinemidplanelateralportswereimplementedforgeneraldiagnosticflexibility.Thelocationofmagneticfieldcoils,forwhichmodificationisnotfeasible,andtheexistingsupportstructuresaremajorproblemsforNBIplasmaaccess,inparticularforthetangentialinjectiondirection.AccessforNBinjectorsthrough15cmdiameterports
withnearnormalinjection(tangencyradius)andthroughasingleØ10cmaperturenear-tangentialinjectionportwiththeaxispassingneartheinnerwallathasbeenanalysedin[13].Shinethroughforisworkableatthehighdensities;NBusageatlowdensitiesis,however,severelylimitedbyexcessiveshine-throughandhighinnerwallpowerloads.Themaximalacceptablepowerloadof7.6MW/fora1sdurationleadstotemperatureriseofgraphiteinnerwalltiles[14]of1000Kcorrespondingtoshine-throughofthe1MWbeamwiththe15cmfoot-printsize.
Amodelofaneutralbeamwithgeometricfocussingandangulardivergence[15]wasperformedtocalculatethebeamtransmissionandpowerloadonthecriticalscrapersintheNBIduct.Theacceptable∼80%beampowertransmittedintothetokamakfor1MW,,1sbeamwith200mA/cm2extractioncurrentfromtheionopticalsystemlocatedatabout250cmfromtheTCVportisfeasibleonlywithlowbeamdivergence:
0.7/0.8。
forØ10/15cmductaperturesrespectively.ThetransmissionofthehighpowerNBthroughnarrowportsdemandshighcurrentdensity,lowdivergenceneutralbeaminjectoronlyreachable,atpresent,bylowercurrentdiagnosticneutralbeams.ToallaytheserequirementsonbeamdivergenceandcurrentdensityamodificationTCVvacuumvesseltocreatenewport(s),specificallydesignedforNBHandfittedbetweenmagneticfieldcoils,isconsidered.TheavailablegapsbetweentoroidalandpoloidalmagneticfieldcoilsattheTCVmidplaneare22cminverticaland38cmintoroidaldirection.Thedesignofductwithinner
minimalapertureof20cm,wallthickness1cmand
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