Free boundary Grad-Shafranov solver for tokamak plasma equilibria
Project description
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This Python module calculates plasma equilibria for tokamak fusion experiments, by solving the Grad-Shafranov equation with free boundaries. Given a set of coils, plasma profiles and shape, FreeGS finds the currents in the coils which produce a steady-state solution in force balance.
Note This is a work in progress, and probably contains bugs. There is a feature wishlist in issues, suggestions and contributions welcome!
Installing
FreeGS is available on PyPI
$ pip install –user freegs
or clone/download this repository and run setup:
$ git clone https://github.com/bendudson/freegs.git $ cd freegs $ python setup.py install –user
Documentation
The manual is in the docs subdirectory, and [hosted here on readthedocs](http://freegs.readthedocs.io/en/latest/).
Examples
The Jupyter notebooks contain examples wuth additional notes
MAST-example.ipynb
There are also some Python scripts to run short tests and examples
$ python 01-freeboundary.py
This solves a free boundary problem, specifying the desired location of two X-points. Writes the equilibrium to a G-EQDSK file “lsn.geqdsk”
$ python 02-read-geqdsk.py
Reads in the file “lsn.geqdsk”, inferring the coil currents from the plasma boundary and profiles in the G-EQDSK file.
$ python 03-mast.py
Calculates a double-null (CDND) equilibrium for MAST from scratch. Writes solution to G-EQDSK file “mast.geqdsk”
$ python 04-read-mast-geqdsk.py
Reads the file “mast.geqdsk”, inferring the coil currents.
$ python 05-fixed-boundary.py
This example solves a fixed boundary problem, in which the square edges of the domain are fixed. The plasma pressure on axis and plasma current are fixed.
$ python 06-xpoints.py
This demonstrates the coil current control code, finding X-points, and marking core region These routines are used inside the free boundary solver
Files
The “freegs” module consists of the following files:
boundary.py - Operators for applying boundary conditions to plasma psi
control.py - Routines for controlling coil currents based on constraints
critical.py - Finds critical points (O- and X-points)
equilibrium.py - Represents the plasma equilibrium state
gradshafranov.py - Greens functions and operators for the Grad-Shafranov equation
jtor.py - Routines for calculating toroidal current density (profiles)
machine.py - Represents the coils and power supply circuits
multigrid.py - The multigrid solver for the linear elliptic operator
picard.py - Nonlinear solver, iterating the profiles and constraints
plotting.py - Plotting routines using matplotlib
License
Copyright 2016-2018 Ben Dudson, University of York. Email: benjamin.dudson@york.ac.uk
This program is free software: you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License along with this program. If not, see <http://www.gnu.org/licenses/>.
References
YoungMu Jeon, [Development of a free boundary Tokamak Equlibrium Solver](http://link.springer.com/article/10.3938/jkps.67.843) [arXiv:1503.03135](https://arxiv.org/abs/1503.03135)
S.Jardin “Computational Methods in Plasma Physics” CRC Press
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