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Forschungszentrum Karlsruhe FZK - EURATOM ASSOCIATION 05/14/2005 Thomas Ihli 1 Status of He-cooled Divertor Design Contributors: A.R. Raffray, and The.

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Presentation on theme: "Forschungszentrum Karlsruhe FZK - EURATOM ASSOCIATION 05/14/2005 Thomas Ihli 1 Status of He-cooled Divertor Design Contributors: A.R. Raffray, and The."— Presentation transcript:

1 Forschungszentrum Karlsruhe FZK - EURATOM ASSOCIATION 05/14/2005 Thomas Ihli 1 Status of He-cooled Divertor Design Contributors: A.R. Raffray, and The ARIES Team ARIES Meeting University of Wisconsin, Madison June 14-15, 2005 Presented by Thomas Ihli * * Forschungszentrum Karlsruhe, currently exchange visitor to UCSD & The ARIES Team

2 Forschungszentrum Karlsruhe FZK - EURATOM ASSOCIATION 05/14/2005 Thomas Ihli 2 Basic divertor concept T-Tubes in parallel + simplified manifold possible (more space) + reduced number of single parts Caps in parallel target main structure: ODS ferritic steel heat exchange part: tungsten alloy + single parts can be tested before assembly

3 Forschungszentrum Karlsruhe FZK - EURATOM ASSOCIATION 05/14/2005 Thomas Ihli 3 Cooling concept jet array 1300°C armor cap cartridge Multijet Slot Jet + larger cooling area  lower averaged heat transfer coefficient sufficient

4 Forschungszentrum Karlsruhe FZK - EURATOM ASSOCIATION 05/14/2005 Thomas Ihli 4 Refined Design Caps less curved  reduced tube-tube distance Reinforcement + improved assembly of tube and connector Total unit length: 90 mm for 10 MW/m 2  better flow uniformity  stronger parts  small deformation 25 mm 85 mm D = 15 mm

5 Forschungszentrum Karlsruhe FZK - EURATOM ASSOCIATION 05/14/2005 Thomas Ihli 5 Parts of T-Tube Design Tube (W-Alloy) Cartridge (Densimet 18) Cap (W-Alloy) Armor Layer (W) T-connector (W-Alloy) Transition piece (Slices from W to Steel)

6 Forschungszentrum Karlsruhe FZK - EURATOM ASSOCIATION 05/14/2005 Thomas Ihli 6 Stress Intensities for basic geometry acceptable total stress at flow channels maximum of stress intensities (~ 360 MPa) within design limits

7 Forschungszentrum Karlsruhe FZK - EURATOM ASSOCIATION 05/14/2005 Thomas Ihli 7 Shielding asymmetric heat load tor. rad. 12 MW/m 2 0 MW/m 2

8 Forschungszentrum Karlsruhe FZK - EURATOM ASSOCIATION 05/14/2005 Thomas Ihli 8 Heat load on caps (by radiation) Temperature peak (for more than 50 % load on tube ends) stress intensities at tube end o.k. Heat load at tube end 100% Heat load at tube end 50%

9 Forschungszentrum Karlsruhe FZK - EURATOM ASSOCIATION 05/14/2005 Thomas Ihli 9 Heat transfer coefficient Influence of slot width q’ =20 MW/m 2 G/A = 48 kg/m 2 dp = 0.28 MPa d =7.5 mm s = 0.25 mm q’ =10 MW/m 2 G/A = 24 kg/m 2 dp = 0.11 MPa d = 15 mm s = 0.5 mm q’ =5 MW/m 2 G/A = 12 kg/m 2 dp = 0.027 MPa d =30 mm s = 0.8 mm

10 Forschungszentrum Karlsruhe FZK - EURATOM ASSOCIATION 05/14/2005 Thomas Ihli 10 Adjustment to various loads by scaling q’ =10 MW/m 2 G/A = 24 kg/m 2 dp = 0.11 MPa d = 15 mm s = 0.5 mm d,b,l ~ 1/q’ G/A ~ q’ P/Q’~ q’ 2 stress Intensities ~ const.

11 Forschungszentrum Karlsruhe FZK - EURATOM ASSOCIATION 05/14/2005 Thomas Ihli 11 W – Fe transition Tungsten W-Fe Gradient Steel anchor W-FE gradient transition: Slices for stepwise adjusting of thermal expansion, Brazed and/or HIPped

12 Forschungszentrum Karlsruhe FZK - EURATOM ASSOCIATION 05/14/2005 Thomas Ihli 12 Schematic Divertor Module Design T-Tubes (W) Module body (Steel) pol. rad. 600°C 700°C tor. rad. wall cooling manifold section Collector

13 Forschungszentrum Karlsruhe FZK - EURATOM ASSOCIATION 05/14/2005 Thomas Ihli 13 Divertor Module Design T-Tubes (W) Module body (Steel) tor. pol. rad.

14 Forschungszentrum Karlsruhe FZK - EURATOM ASSOCIATION 05/14/2005 Thomas Ihli 14 Divertor Integration: Divertor Target Blanket Module rad. pol. Independent Blanket/Divertor (if remaining breeding zone is still sufficient) A1) Divertor Manifold box below Blanket module +Access to blanket pipes from below  same cutting/welding scheme for divertor +Simple shape for blanket -Large cooled divertor manifold necessary -reduced breeding zone - divertor has to be disassembled from blanket HT Shield with cut-outs for front access maintenance X. Wang

15 Forschungszentrum Karlsruhe FZK - EURATOM ASSOCIATION 05/14/2005 Thomas Ihli 15 Divertor Integration Divertor Target Blanket Module rad. pol. tor. Independent Blanket/Divertor (if remaining breeding zone still sufficient) A2) Divertor Manifold fits into cut-out in Blanket module + Divertor may be removed with Blanket +Access to blanket pipes from below +Smaller divertor manifold - Very complicated shape for blanket - Cooled divertor manifold necessary -Reduced shielding in manifold/tube area HT Shield with cut-outs for front access maintenance

16 Forschungszentrum Karlsruhe FZK - EURATOM ASSOCIATION 05/14/2005 Thomas Ihli 16 Divertor Integration Options Divertor Target Blanket Module rad. tor. pol. OPTION B: Divertor Manifold fits into cut-out in Blanket module +Independent Blanket/Divertor +Less neutron heating for divertor manifold -Complicated shape for blanket - Access of blanket pipes limited (tor.) - Divertor cannot be removed without the Blanket HT Shield with cut-outs for front access maintenance

17 Forschungszentrum Karlsruhe FZK - EURATOM ASSOCIATION 05/14/2005 Thomas Ihli 17 Divertor Integration Options Divertor Target Blanket Module rad. tor. pol. OPTION C: Divertor Manifold in Blanket box +Lower neutron heating for divertor manifold +No additional cooling for divertor manifold +Thin manifold as included in blanket box +Uncomplicated shape for blanket +Better shielding than option A & B +Access to blanket pipes from below - Fix point at blanket back side - Divertor part of blanket Slots between divertor channels at blanket box passage  stress ok.

18 Forschungszentrum Karlsruhe FZK - EURATOM ASSOCIATION 05/14/2005 Thomas Ihli 18 TOKAMAK Outboard target: cooling zones Outboard divertor power load 685 MW 58 % neutron power 42 % surface power max. 80 % of surface power on outboard  230 MW < 4 MW/m² < 2.5 MW/m² ≤ 10 MW/m² L = 864 mm L = 660 mm L = 800 mm

19 Forschungszentrum Karlsruhe FZK - EURATOM ASSOCIATION 05/14/2005 Thomas Ihli 19 4 3 1 2 OB 600°C 644°C 673°C 687°C 700°C LAYOUT EXAMPLE TOKAMAK: thermo-hydraulic layout ΔT = 100 K

20 Forschungszentrum Karlsruhe FZK - EURATOM ASSOCIATION 05/14/2005 Thomas Ihli 20 SUMMARY Divertor Design Concept for ARIES CS has been developed New T-tube heat exchanger design New manifold concept for rel. high neutron load (vol. heating) Slot based jet impingement adapted Good therohydraulic performance (Said & Regina FZK) Thermal stress within design limits for 10 MW/m 2 Different Integration concepts can be chosen Detailed target layout possible, when distribution data available

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