Dear Firedrakers, The attached image doesn't look very exciting but it shows that we managed to get a hydrostatic pressure calculation in the presence of topography (a hill!) working in the extruded FEEC framework. Things are starting to work! We took a temperature field that depends only on z, and computed the pressure on a terrain following mesh, the exact solution depends only on z too. This is with the lowest order spaces i.e. DG1 for pressure and P0xP1 for temperature. cheers --cjc
On 11 Apr 2014, at 16:16, Cotter, Colin J <colin.cotter@imperial.ac.uk> wrote:
Dear Firedrakers, The attached image doesn't look very exciting but it shows that we managed to get a hydrostatic pressure calculation in the presence of topography (a hill!) working in the extruded FEEC framework. Things are starting to work!
We took a temperature field that depends only on z, and computed the pressure on a terrain following mesh, the exact solution depends only on z too. This is with the lowest order spaces i.e. DG1 for pressure and P0xP1 for temperature.
Cute. Lawrence
participants (2)
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Cotter, Colin J
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Lawrence Mitchell