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ASIPP EAST Overview Of The EAST In Vessel Components Upgraded Presented by Damao Yao.

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Presentation on theme: "ASIPP EAST Overview Of The EAST In Vessel Components Upgraded Presented by Damao Yao."— Presentation transcript:

1 ASIPP EAST Overview Of The EAST In Vessel Components Upgraded Presented by Damao Yao

2 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division1 1.First Plasma 2.First water cooled PFC 3.Upgrade 4.Summary Outline

3 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division2 First Plasma The first plasma of EAST was obtained in 2006 with all plasma facing material is stainless steel 316L, except graphite poloidal limiter.

4 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division3 First Plasma

5 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division4 First Water cooled PFC

6 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division5 First Water cooled PFC

7 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division6 First Water cooled PFC

8 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division7 First Water cooled PFC Passive Stabilizer Active fast feedback VS coils

9 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division8 Molybdenum First Wall Mo FW + C Divrertor

10 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division9  The EAST plasma heating power is updating to 20MW with LHCD 10MW, ICRH 8MW and NBI 2MW, and for further updating: ICRH up to 12 MW, NBI up to 8MW and ECRH up to 6MW. Divertor heat flux will up to 10MW/m 2  ELMs was observed in EAST last operation campaign  To obtain high plasma performance error field correction is necessary in EAST  VS coils are relocated to get more efficient vertical stability control  Upper cryopump developed to enhance upper divertor particle exhaust Upgrade Background

11 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division10 Upgrade Background EAST #41019@3034ms Visible camera shows bright ELM structure Z (m) 2 2.25 0 -0.5 Major radius R (m)

12 HT-7/ EAST ASIPP Upgrade Background 2014-10-0811Presentation in fusion reactor division L-Mode H-Mode Power Density to Divertor

13 HT-7/ EAST ASIPP Design Objective Accommodate plasma configuration Module easy install and remove Strong enough for plasma event Heat load handling achieve 10MW/m 2 Enough conductance for pumping Apertures for diagnostics W/Cu Divertor Design

14 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division13 Structure design: EAST W/Cu divertor focus on ITER like structure and technology. W/Cu Divertor Design Flat type W of ~2mm thick End-boxes Monoblock- W/Cu targets Compact end-boxes for cooling connects

15 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division14 W target design: Tungsten plasma facing target design as monoblock structure for vertical target and flat structure for baffle. W/Cu Divertor Design Flat W/Cu with cooling channel W Monoblock structure End box

16 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division15 Monoblock design and optimization: W/Cu Divertor Design

17 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division16 Cooling water parameters optimization: W/Cu Divertor Design Inlet temperatureInlet velocity Outlet pressure

18 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division17 Cassette Design W/Cu Divertor Design Supports Pumping duct Cooling water circuit

19 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division18 Cassette Structure analysis: Input data: Halo current Ih=25%Ip and TPF=2, Eddy current calculated by COMSOL code. W/Cu Divertor Design

20 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division19 Divertor Development Monoblock Development---HIP Plasma facing surface perpendicular To W material rolling direction

21 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division20 W/Cu divertor R&D W/Cu Divertor Development Monoblock target Prototype of Divertor module

22 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division21 Divertor Development Defects >  2mm Spiral scanning ultrasonic NDT of W/Cu interface Probe of phased array ultrasonic Phased Array ultrasonic has abilities uniquely : - High-speed tube inspection through electronic scanning - Inspection of components made of multiple dissimilar materials

23 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division22 Divertor Development Heat load ~ 8.4MW/m 2, cooling water of 2m/s, 20 ℃, 15s/15s on/off cycles. The mock up survived up to 1000 cycles, with surface temperature up to 1150 ℃. The temperature difference of cooling water between inlet and outlet raised up to 18 ℃. Cycle 1 Cycle 1000 Cycles 1-2 Cycles 999-1000

24 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division23 Divertor Development Flat Type Development HIP / VHP VPS / CVD VHP or gradient W/Cu layer HIP

25 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division24 Divertor Development HIP Flat Type Testing 5MW/m 2 ; 15s on & 15s off NDT result after 1001 cycles

26 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division25 VS coils relocation Position 1 Current Position Old position Position 3

27 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division26 VS coils Development VS coils conductor: ITER like conductor technology : Pure copper conductor with water cooling, MgO powder insulation, SS jacket SS316L Jacket MgO Powder Pure Copper

28 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division27 VS coils installed in VV Two turns VS coils up- down symmetry, each turn with two feeders through VV port, and connected outside VV. The coils are winding inside VV.

29 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division28 RMP coils Design 3D view of the coil system with plasma configuration. 2D view of the coil system in poloidal cross section

30 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division29 RMP coils Design Functions and parameters of RMP Coils FunctionPulsest(s)/Pulset_total(s)CurrentFrequence(Hz) Error field correction 250004010000001kAt0 ELM control5000105000010kAt 0(80%),50(20 %) RWM Control25005125001kAt<= 1000 The design parameter assume that EAST have 5,000 shots per year and the coil will be used for 10 years with 50,000 shots.

31 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division30 RMP coils Development Conductor design  ITER Like conductor structure - Copper conductor with active cooling water - 3mm thickness MgO powder insulation layer - 2mm thickness SS-316L Jacket  Max. Current of conductor : 3kA

32 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division31 RMP coils Development 8 RMP Coils upper and down, curvature in toroidal direction and straight in poloidal direction. 4 turns for each coil. Coils support to VV, and protected by Copper plate with Mo tiles attached.

33 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division32 Second Cryo-pump Cryo-pump Design The upper Cryo-pump Structure is same as lower cryo-pump (DIII-D like type). i.e. tube inside tube structure with liquid helium stabilizer at center then He tube, then 80 K thermal shield, then VV temperature thermal shield.

34 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division33 Second Cryo-pump Cryo-pump manufacturing Installation The cryo-pump design nominal pumping speed is127m 3 /s, and effective pumping speed is 37m 3 /s (for N 2 ), effective pumping speed for D 2 is ~80m 3 /s, for H 2 is ~110m 3 /s

35 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division34 Summary Full C PFC Mo FW + C Divrertor 2010 2012 First Plasma 2014 Mo FW+W&C Divertor

36 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division35 Summary RMP coils Upper Divertor Upper Cryo-pump VS coils

37 HT-7/ EAST ASIPP 2014-10-08Presentation in fusion reactor division36 Summary

38 HT-7/ EAST ASIPP Summary 2014-10-08Presentation in fusion reactor division37  The EAST plasma heating power will be significant update  To meet advance plasma high performance the EAST in-vessel components should be updated  W/Cu divertor will be handle 10MW/m 2 for steady state and 15MW/m 2 for transient  RMP coils are developed for multiple functions, VS coils are relocated for more efficient vertical instability control  Updated EAST in-vessel components are in operation and will demonstrate their reliability

39 HT-7/ EAST ASIPP 2014-10-0838 Thanks for your attention! Presentation in fusion reactor division

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