Skip to content
New issue

Have a question about this project? Sign up for a free GitHub account to open an issue and contact its maintainers and the community.

By clicking “Sign up for GitHub”, you agree to our terms of service and privacy statement. We’ll occasionally send you account related emails.

Already on GitHub? Sign in to your account

Fusion Nuclear Science Facility blanket unit cell #433

Open
cticenhour opened this issue Sep 26, 2024 · 0 comments
Open

Fusion Nuclear Science Facility blanket unit cell #433

cticenhour opened this issue Sep 26, 2024 · 0 comments
Labels
new_model Adding a new model to the VTB

Comments

@cticenhour
Copy link
Member

cticenhour commented Sep 26, 2024

Model Description

A unit cell of a Fusion Nuclear Science Facility outboard blanket module was recently presented at the UKAEA School on Open-Source Software for Fusion Engineering Simulation in August 2024. This model contained multiple layers of representative materials:

  1. First wall armor (tungsten)
  2. First wall (F82H steel)
  3. Multiplier (Be12Ti)
  4. Toroidal plate (holding a cooling channel, F82H steel)
  5. Breeder (Li2ZrO3)
  6. Toroidal plate (holding a second cooling channel, F82H steel)

Within this assembly, 3D heat conduction was used to describe heat transfer across all material layers, with a constant heat generation source applied to the armor boundary to simulate the heat deposition of a fusion plasma source. Each cooling channel was modeled by a 1D thermal hydraulics solve, which was coupled to the 3D heat conduction model using the MOOSE MultiApp system.

Project description

This model was funded under the United States Department of Energy, Office of Science, Office of Fusion Energy Sciences Early Career Award program as part of the project entitled "Toward a Technology-Inclusive Whole Device Model" led by PI Dr. Paul Humrickhouse at Oak Ridge National Laboratory.

This model was created by Virginia Commonwealth University PhD student Trevor Franklin (@FranklinTrevor) under the direction of Prof. Lane Carasik (@lcarasik) and under the mentorship of myself and Pierre-Clément Simon (@simopier). It serves as the simplest version of a larger model simulating a full blanket region of the FNSF, using only those objects currently in MOOSE as of 01 August 2024.

Impact

This brings the first fusion blanket model to the VTB and serves as an example of multiphysics coupling (heat conduction, thermal hydraulics) relevant to a fusion blanket assembly and teachable to a general MOOSE audience.

@cticenhour cticenhour added the new_model Adding a new model to the VTB label Sep 26, 2024
Sign up for free to join this conversation on GitHub. Already have an account? Sign in to comment
Labels
new_model Adding a new model to the VTB
Projects
None yet
Development

No branches or pull requests

1 participant