MHD equilibrium: Difference between revisions
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subject to appropriate boundary conditions. | subject to appropriate boundary conditions. | ||
In two dimensions (assuming axisymmetry), | The word "ideal" refers to the absence of resistivity. | ||
In two dimensions (assuming axisymmetry), the force balance equation reduces to the | |||
[[:Wikipedia:Grad-Shafranov equation|Grad-Shafranov equation]]. | [[:Wikipedia:Grad-Shafranov equation|Grad-Shafranov equation]]. | ||
Revision as of 10:20, 14 August 2009
The ideal Magneto-HydroDynamic (MHD) equilibrium of a near-Maxwellian magnetically confined plasma is obtained by solving the force balance equation
subject to appropriate boundary conditions. The word "ideal" refers to the absence of resistivity.
In two dimensions (assuming axisymmetry), the force balance equation reduces to the Grad-Shafranov equation.
A large number of codes is available to evaluate MHD equilibria.
2-D codes
3-D codes
- VMEC (nested flux surfaces)
- IPEC (nested flux surfaces)
- HINT/HINT2
- PIES
- Siesta (islands, fixed boundary)