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Lithium Vapor Box Divertor

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Presentation on theme: "Lithium Vapor Box Divertor"— Presentation transcript:

1 Lithium Vapor Box Divertor
Christopher Jagoe ‘18

2

3 Motivation Plasma in tokamak escapes along field lines
Heat flux greater than 20 GW/m2 Divertor plates wear out Vapor box uses volumetric cooling Goal: prevent efflux into main body 3 orders of magnitude greater than the surface of the sun

4

5 Approach Lithium is hot, expensive, and difficult
Water vapor mock-up experiment Parallel development of code (OpenFOAM) DSMC for rarefied gas conditions Kn = mfp/L between 0.01 and 1

6 Scaling Water vapor in the 0º – 100º range
Range of pressure differences much lower Box size will be smaller but not too small Prevent ice from forming

7 Code Installing (harder than you think) blockMeshDict
Boundary conditions Wall, zeroGradient, etc Patching to allow for different densities Courant number, mesh size affects run time

8 Results Shock pattern discovered
Ability to create a pressure driven flow Capability to use more complex geometries Post-processing in Paraview

9

10

11 Impact Next step: comparing code to water vapor
If successful, acquiring fundings for NSTX or MAST Reactors can burn cheaper, faster, longer

12 References Diagram on slide 3 from “The Lithium Vapor Box Divertor” by R. J. Goldston, R. Myers, J. Schwartz, Physica Scripta, 2016

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