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<html>
<title>multicomponent</title><body bgcolor="FFFFFF">
<h2>multicomponent</h2>
<menu>
<LI><A HREF="../../../src/snes/examples/tutorials/ex19.c.html"><CONCEPT>ex19.c</CONCEPT></A>
<menu>
Nonlinear driven cavity with multigrid in 2d.<BR> <BR>
The 2D driven cavity problem is solved in a velocity-vorticity formulation.<BR>
The flow can be driven with the lid or with bouyancy or both:<BR>
-lidvelocity <lid>, where <lid> = dimensionless velocity of lid<BR>
-grashof <gr>, where <gr> = dimensionless temperature gradent<BR>
-prandtl <pr>, where <pr> = dimensionless thermal/momentum diffusity ratio<BR>
-contours : draw contour plots of solution<BR>
</menu>
<LI><A HREF="../../../src/snes/examples/tutorials/ex19tu.c.html"><CONCEPT>ex19tu.c</CONCEPT></A>
<menu>
Nonlinear driven cavity with multigrid in 2d.<BR> <BR>
The 2D driven cavity problem is solved in a velocity-vorticity formulation.<BR>
The flow can be driven with the lid or with bouyancy or both:<BR>
-lidvelocity <lid>, where <lid> = dimensionless velocity of lid<BR>
-grashof <gr>, where <gr> = dimensionless temperature gradent<BR>
-prandtl <pr>, where <pr> = dimensionless thermal/momentum diffusity ratio<BR>
-contours : draw contour plots of solution<BR>
</menu>
<LI><A HREF="../../../src/snes/examples/tutorials/ex27.c.html"><CONCEPT>ex27.c</CONCEPT></A>
<menu>
Nonlinear driven cavity with multigrid and pseudo timestepping 2d.<BR> <BR>
The 2D driven cavity problem is solved in a velocity-vorticity formulation.<BR>
The flow can be driven with the lid or with bouyancy or both:<BR>
-lidvelocity <lid>, where <lid> = dimensionless velocity of lid<BR>
-grashof <gr>, where <gr> = dimensionless temperature gradent<BR>
-prandtl <pr>, where <pr> = dimensionless thermal/momentum diffusity ratio<BR>
-contours : draw contour plots of solution<BR>
</menu>
<LI><A HREF="../../../src/snes/examples/tutorials/ex29.c.html"><CONCEPT>ex29.c</CONCEPT></A>
<menu>
Hall MHD with in two dimensions with time stepping and multigrid.<BR>-options_file ex29.options<BR>
other PETSc options<BR>
-resistivity <eta><BR>
-viscosity <nu><BR>
-skin_depth <d_e><BR>
-larmor_radius <rho_s><BR>
-contours : draw contour plots of solution<BR>
</menu>
<LI><A HREF="../../../src/snes/examples/tutorials/ex32.c.html"><CONCEPT>ex32.c</CONCEPT></A>
<menu>
Model multi-physics solver. Modified from ex19.c <BR>\\nThe 2D driven cavity problem is solved in a velocity-vorticity formulation.<BR>
The flow can be driven with the lid or with bouyancy or both:<BR>
-lidvelocity <lid>, where <lid> = dimensionless velocity of lid<BR>
-grashof <gr>, where <gr> = dimensionless temperature gradent<BR>
-prandtl <pr>, where <pr> = dimensionless thermal/momentum diffusity ratio<BR>
-contours : draw contour plots of solution<BR>
</menu>
<LI><A HREF="../../../src/snes/examples/tutorials/ex49.c.html"><CONCEPT>ex49.c</CONCEPT></A>
<menu>
Nonlinear driven cavity with multigrid in 2d.<BR> <BR>
The 2D driven cavity problem is solved in a velocity-vorticity formulation.<BR>
The flow can be driven with the lid or with bouyancy or both:<BR>
-lidvelocity <lid>, where <lid> = dimensionless velocity of lid<BR>
-grashof <gr>, where <gr> = dimensionless temperature gradent<BR>
-prandtl <pr>, where <pr> = dimensionless thermal/momentum diffusity ratio<BR>
-contours : draw contour plots of solution<BR>
</menu>
<LI><A HREF="../../../src/snes/examples/tutorials/ex50.c.html"><CONCEPT>ex50.c</CONCEPT></A>
<menu>
Nonlinear driven cavity with multigrid in 2d.<BR> <BR>
The 2D driven cavity problem is solved in a velocity-vorticity formulation.<BR>
The flow can be driven with the lid or with bouyancy or both:<BR>
-lidvelocity <lid>, where <lid> = dimensionless velocity of lid<BR>
-grashof <gr>, where <gr> = dimensionless temperature gradent<BR>
-prandtl <pr>, where <pr> = dimensionless thermal/momentum diffusity ratio<BR>
-contours : draw contour plots of solution<BR>
</menu>
</menu>
</body>
</html>
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