multicomponent
ex19.c
Nonlinear driven cavity with multigrid in 2d.
The 2D driven cavity problem is solved in a velocity-vorticity formulation.
The flow can be driven with the lid or with bouyancy or both:
-lidvelocity <lid>, where <lid> = dimensionless velocity of lid
-grashof <gr>, where <gr> = dimensionless temperature gradent
-prandtl <pr>, where <pr> = dimensionless thermal/momentum diffusity ratio
-contours : draw contour plots of solution
ex27.c
Nonlinear driven cavity with multigrid and pusedo timestepping 2d.
The 2D driven cavity problem is solved in a velocity-vorticity formulation.
The flow can be driven with the lid or with bouyancy or both:
-lidvelocity <lid>, where <lid> = dimensionless velocity of lid
-grashof <gr>, where <gr> = dimensionless temperature gradent
-prandtl <pr>, where <pr> = dimensionless thermal/momentum diffusity ratio
-contours : draw contour plots of solution
ex29.c
Hall MHD with in two dimensions with time stepping and multigrid.
-options_file ex29.options
other PETSc options
-resistivity <eta>
-viscosity <nu>
-skin_depth <d_e>
-larmor_radius <rho_s>
-contours : draw contour plots of solution
ex30.c
Steady-state 2D subduction flow, pressure and temperature solver.
\\nThe flow is driven by the subducting slab.
-ivisc <#> = rheology option.
0 --- constant viscosity.
1 --- olivine diffusion creep rheology (T-dependent, newtonian).
2 --- weak temperature dependent rheology (1200/T, newtonian).
-ibound <#> = boundary condition
0 --- isoviscous analytic.
1 --- stress free.
2 --- stress is von neumann.
-icorner <#> = i index of wedge corner point.
-jcorner <#> = j index of wedge corner point.
-slab_dip <#> = dip of the subducting slab in DEGREES.
-back_arc <#> = distance from trench to back-arc in KM.(if unspecified then no back-arc).
-u_back_arcocity <#> = full spreading rate of back arc as a factor of slab velocity.
-width <#> = width of domain in KM.
-depth <#> = depth of domain in KM.
-lid_depth <#> = depth to the base of the lithosphere in KM.
-slab_dip <#> = dip of the subducting slab in DEGREES.
-slab_velocity <#> = velocity of slab in CM/YEAR.
-slab_age <#> = age of slab in MILLIONS OF YEARS.
-potentialT <#> = mantle potential temperature in degrees CENTIGRADE.
-kappa <#> = thermal diffusivity in M^2/SEC.
-peclet <#> = dimensionless Peclet number (default 111.691)
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