Power Loads and Divertor Design

Hayden McGuinnessDon Steiner

Rensselaer Polytechnic Institute

In collaboration withT.K. Mau and A. Grossman

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Overview

Objective: Feasible Divertor Design considering heat loads, temperature distribution and physical extent.

Tools: GOURDON/GEOM codes Time Table: Now!

Methodology Particles from plasma Following Field lines

Assume Power leaves LCMS uniformly

Field lines started with in 1cm of LCMS Angle of Incidence, Line length, Densities

jji APW /)sin(

NPP Thermi /

Case1:Wall conformal to LCMS

Case1 Continued…

Case 2: Truly Conformal

Need to specify real space coordinates Pros: Accurate, Real Space, “Platelets” Cons: What size area to use?

Case 2…

Case 3: Flowing with Lines

Need other Indicators Radial Field Line

Density Follow the Helical

Edge Set Wall Back

Case 3…

Case 3 Advantages

Initial problems with Baffles Angle plate in Poloidal/Toroidal direction ½ intercepted but ¼ hit sides

Tilt with Field lines Large Improvement. 2/3 Hit, few on sides

How close can we get to LCMS?

Case 3 stats

Maxium Platelet Heatload = 5% of Power Ave Plate Length = 424 m Ave Wall Length = 30 m

Summary and OutLook Ergodic design robust Details important in close quarters Plate not necessarily conformal

Poloidal versus Toroidal Strike Strips Tilting with the Field Line is Beneficial High Line interception achievable

Power Loads and Divertor Design

Documents

Impact of the plasma geometry on divertor power exhaust

05-Chap5i-Power System Loads (1)

Divertor Presentation - Stoafer

Power supply for magnetron and the like loads

AC- / DC-Sources | Electronic Loads Inverter | Power

Disruption Heat Loads on the JET MkIIGB Divertor

Example 10.6 Calculating Power in Parallel Loads

“Snowflake” divertor configuration in NSTX*

Programmable Power Supplies & Electronic Loads Mini Catalog

Performance assessment of tightly baffled long leg ... · X-point Target Divertor implemented in ARC [4] ARC divertor challenge: reactor-scale power in compact machine. • ARC divertor

Evolution of the pedestal on MAST and the implications for ... · power loads to the outboard divertor targets rises from ~2-4 MWm-2 to 24 MWm-2. The time evolution of the pedestal

Ahbg-f-sec - Dc Power Loads Connectors

Power performance optimization and loads alleviation with ......Power performance optimization and loads alleviation with active flaps using individual flap control . Vasilis Pettas,

T.Eich 1 / 26 rehearsal for PFMC, Jülich 02.05.2013 ELM divertor heat loads in JET- ILW and full-W ASDEX Upgrade T.Eich, R.Scannel, B.Sieglin, G.Arnoux,

FIRE Divertor Design

Modeling of EAST Divertor

Harmonics When Considering Critical Power Loads [Read-Only]

Li use for mitigation of divertor power loading and disruption mitigation in ITER

Erosion/redeposition analysis of CMOD Molybdenum divertor and NSTX Liquid Lithium Divertor

EX/P6-2 Divertor heat loads in RMP ELM controlled H-mode plasmas on … · 2008. 10. 6. · forms a specific spiral pattern on the divertor surface. Lobes of the manifolds form an