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JT-60SA計画の進展 - 高温プラズマ力学研究センター
12QUEST$2016/9/20 JT-60SA計画の進展 !#$# for the JT-60SA Team (JT-60SA " '%&,.)+-*)- 1 JT-60SA 2 JT-60SA ? ITPA MHD 2 JT-60SA (JT-60 Super Advanced) 計画 { Z^Y]bpmXY[\kbdq<8!H8MUl (kpq-Fvx4l%)3 ITER K98 (1) ITERl!H9.Plgol$#:? ITER$# JT-60SAL5 at~(BA)0 kbdqzuwyL5_i` rclwyQ2IBL5lL5 *C E6+y|l}sR'TA"fqWD }VsGa`,sITERn& DEMO 15m (2) 1kdgITERlJ:? 1hKijqWsDifqW }s100=>A"e`1lON /s;@ (3) ITER1S7sfq*lC JT-60SA 3 JT-60SA2)1<BAF8 5.5MA >B7@. , Ip ;D49C$(@>B7@), Bt , Rp , a >B7@& /0κX +, δX 36?5;, A #<BAF8, S , q95 =B:;;:> "<EF ,IJS!'OTHQN-NBI IJS!'OTHQP-NBI .LIKRNRSECRF 5.5 MA 2.25 T 2.96 m 1.18 m 133 m3 1.95 0.53 2.5 6.7 G3 100 s 41 MW 10 MW 24 MW 7 MW 4.6MA ITER like 1# * PTHM (- (%) 4 JT-60SA=5824# GMN NBI: 34MW×100s ECRF: 7MW×100s P-NBI, 85keV, 12units × 2MW=24MW, * 4u (CO:2u, CTR:2u), $: 8u N-NBI, 500keV, 2units×5MW=10MW, *, off-axis 110GHz+138GHz (複数周波数ジャイロトロン), 9基のジャイロトロン, 4基のランチャー >5kHzでのパワー変調 可動ミラー EC NNB 1 1 1 NBI;ECRF=(>B7=!-<@A#30"3,= =>MHD=&:=2INFHKEJ=. /) 2INFHKEJ=)<693%'DCL?+ 5 JT-60SA (NbTi) JT-60U (Cu) 22t/ JT-60SA (NbTi) 90t/ JET (Cu) http://fusionforenergy.europa.eu/mediacorner/ newsview.aspx?content=991 6 JT-60SA 220t $)"#%& ' 380t 150t 270t (EFC&CS) 260t $)"#%& '(*!% ECRF Plasma 15m NBI 12m JT-60U(MG) 340''# 2.4mm 110° Block 10 m D01 120° Block D02 D07 D03 D04 6.4mm D05 D08 6.4mm D02 D07 welding D09 D01 D03 340° D09 2.4mm D06 D08 D04 D05 D06 110° Block 2"(*$%#) 2 20158&340# ,103/4" &<-1mm +-.03/: &+2mm 6.6m '! 8 ,201-21/(VVTS)(& VVTS (40) ( VVTS (80K) TFC (4K) Aug. 2016 VV (50 C) #14 #13 $$#"! $$# #12 #11 VVTS: 3mm(SS304(2% 80K(He+.* $$#" #10 #9 #8 VVTS#7 VVTS組立中(20度分×8) VVTS)201611' 9 EF%$, (NbTi) & '-)$( (Nb3Sn) ≤8 mm EF1 0.3 mm ≤7 mm EF2 0.4 mm ≤6 mm EF3 0.2 mm ≤6 mm EF4 0.6 mm ≤7 mm EF5 0.6 mm ≤8 mm EF6 1.3 mm 12.0 m 9.6 m 4.4 m 4.4 m 8.1 m 10.5 m EF1, EF2, EF3# (20168) 12 m CS*&+.,# CS1*&+.,! NIFS EF1 10 m EF2 4.4 m CS1 EF3 EF4-6! " 10 TF Gravity Support NbTi strand Outer Intercoil Structure CEA (Alsyom) CEA (SDMS) F4E (Furukawa) Conductor ENEA (ICAS) ENEA (ASG) TF Winding Pack CEA (GE) Cold Test Facility CEA SCK/CEN (Saclay) (ALM) ENEA (Walter Tosto) Cold Test (4.5-7K, 25.7kA) Wedge structure to withstand centralizing forces F4E (KIND) Forging Material Coil Casing 11 TFC& "! 25.7kA 17 Feb. 2016 First TFC (CEA) completed "! "! : ~7.46 K (> 7.32K) (CEA Saclay) TFC5& "! 12 TFC&2016720*!* TFC1&2016/4/6* ),0' QST), #."* CEA2134), 1(): Annie 2(): Brigitte 3(): Roberta 1st TFC: 7/20*! 2nd TFC: 8/25*! 3rd TFC: 9/122134$11/3 %%-+1(/1 13 !4-5: #90" !2-3: !8-1 #20" セクター6-7: 70%完成 2017 14 #$&' )2016 3 2016 10 JT-60 #$&': CEA He!$%(": F4E : QST (JAEA) 2014 5 He!$ %(" He LN2%(" 15 +5"6#5EU5012(! PS: SCMPS (Supercond. Magnet PS) /CEA (EF2-5 and TF) /EF2-5 PS: $, :20161; /2016627-2944*4 JEMA QPC (Quench Protection Circuit) /Consorzio RFX ( TF: 3 units, PF: 20 units) *35%)' PS: SNU (Switching Network Unit) ENEA /201694 Energy Technology OCEM Installation by CEA at Naka /ENEA (CS1-4 , EF1&6) /CS2-3 transformers: /CS1 and CS4 converters: $, (2016/4), 2017. POSEICO– JEMA Shipping ready :52 boxes; -&+897 6 CLs: TF coils (26kA), 20 CLs: EF&CS (20 kA) TFC560*4 CS2 Transformer 16 ECRFGILO?4#A2* "2"HQESMST?4# U8110GHz, 138GHz>1MW, 100sC3 (2014) U882GHz>1MW, 1s (2015) 99→ >?$ :/ U 1.5MW0?#/C RTJQV?4# U8PKFDKNA";=!U6 !U 98!U+U)%?-,U.7 ECRFGILO?4# U81&:&? U85(EU<)?/3B@<(' 82GHz 138GHz B=2.25T 110GHz B=1.7T 17 NBI$%&(!" P-NBI N-NBI 2MW (80keV, 25A), 100s !')( →JT-60SA!# ITER(RFX)#QST !→+-*,!# QST-RFX joint experimental team Long pulse development Achievement of JT-60SA requirement A. Kojima et.al., Fusion Eng. Des. 102 (2016) 81–87 18 JT-60SA,0-#.$ Mar., 2013 Jan., 2014 EF63C 5A348;1=?E28 真空容器 VVサーマルシールド TFコイル EF63C* :D>3= クライオスタット We are here TF63C !& Jan. 2015 5A348;1=+ (/)34095;2 % QPC MG-set SCMP S JT-60SA '" %B2=E TF63C 78<@ NBI First Plasma 2019 ECH , etc SNU 19 JT-60SAbQgV[aeKE)f- JT-60SAbQgV[ae f@ITERJDEMOH/>H,GC AJT-60SAH%&<$J%&"K.4 f@%&02K;(2016E(5 ) (2': %&" (3': 93=;# (4': MHDF (5': 58F:D7I (6': ?MYcNg* (7': \WSTcF6 ! Physics (8': ULZgT, SOL, PMI (9': + (10': !1^WbeOFR]_dgR`ePgX JT-60SA Research Plan Ver. 3.3 B20163G; (5 %&0(20165) JT-60SA Research Plan 20 QUEST{~LPfI NIFS¡¤LP (H25)~) : 8 F “QUEST~e6g}rtN<[B/LP” £ JT-60SAt~TC ¤pAT ¤QUEST} o^Uuy`l £nO~`l#4 JT-60SAZU^[}hv!]LP(H27)*) : XH F “j" ¢=}%>@~_” £ QUESTzpN££N(£EC=3R}%vKD£>@:~_ £ He}xqyKD.~b'Wi}hv#l[S £nJQ$¤Yk~ ¢~A*5sC?=¡¤_ JT-60SAZU^[}hv!]LP(H23)*) : & F “j" ¢=&ZUG=mc2~^[;\” £nJT-60SAzV|FADIS~-+;\ £nw~.~E0LPzp2=3z~ on~7d9~;\([S) £n }¡¤`lzp[ST:~ ,1~Ma 21 =PGXI)*$ (ITPA) https://www.iter.org/org/team/fst/itpa Mission The International Tokamak Physics Activity (ITPA) provides a framework for internationally coordinated fusion research activities. The ITPA continues the tokamak physics R&D activities that have been conducted on an international level for many years. This has resulted in the achievement of a broad physics basis essential for the ITER design and useful for all fusion programs and for progress toward fusion energy generally. The ITPA operates under the auspices of ITER. The Participants in the ITPA are the Members of ITER. The organizational structure of the ITPA consists of a Coordinating Committee (CC) and several Topical Physics Groups. 2 @/:5KQ[FPTG\J\`V @69a<A8BPTG\J\`V @MHD, OCLZVKY^aPTG\J\`V @>ER\H`.)*PTG\J\`V @WOLM\a7)*PTG\J\`V LI]DV_FUaNDS`M @1(PTG\J\`V @3(QST) @" (NIFS) @,-%(QST) @(?) @4+(0) @!#(QST) @';&(NIFS) 22 ;=948, 20154(ITER) overview IPB-NF 201510(<?C) 3D+RWM REs NTM, Sawtooth ! ! disruption 20163(NIFS) F:38B>6AE$&/!-,$"*%) FITER,857@GD2'* $ 0#.(1+! 23 Joint Experiment MDC-1 Disruption mitigation by massive gas jets MDC-8 Current drive prevention/stabilization of NTMs MDC-15 Disruption database development MDC-17 Active disruption avoidance MDC-18 Evaluation of axisymmetric control aspects for ITER MDC-19 Error Field Control at Low Plasma Rotation MDC-20 Requirements for real-time sawtooth control MDC-21 Global mode stabilization physics and control MDC-22 Disruption Prediction MDC-23 Formation, suppression, and mitigation of runaway electrons during disruptions 24 Working Group activity, Joint Analysis "!"# IO1-2" WG-6 Non-Axisymmetric currents during VDEs WG-8 Radiation asymmetry during MGI WG-10 Halo current modeling WG-11 Control of locked modes WG-12 3D distortion of the plasma boundary WG-13 Runaway electrons energy dissipation by high-Z impurities during disruptions JA-1 Joint Theoretical Activity on Shear Flow Effects for NTMs JA-2 Nonlinearly interacting tearing modes 25 PBJBR r JT-60SAM2F?4L9B B'_sko`sohX/- r 20167CgpZco+^Zo!F"EV:&*L ) B=M^ZoS1r3@r67F90 rA!`aelC>$`ael.MDUO3@(" BLUWr4SQ)F90 rA%`aelM;(S9 r JT-60SAL<HW*,#S"I9 rAITPA MHD, disruption & control gi[o]osjIN BfYanj`mqT85>FGKgid\ BB→ QUESTMfsbX 26