| /libCEED/examples/fluids/tests-output/ |
| H A D | blasius_test.yaml | 8a94a473032dc6ed59a2cf0afe1d886fbdb591f4 Thu Jan 05 01:15:44 UTC 2023 Jed Brown <jed@jedbrown.org> examples/fluids: Riemann outflow using pressure and temperature
* This allows stable sustained and transient recirculation.
* short-wake domain recirculation behind cylinder has sustained
recirculation. If the exterior temperature is different, the
recirculation will bring in the wrong temperature, but at least
it's stable.
* nwave with slow background causes transient flow reversal when
strong acoustic hits boundary.
* Clean outflow and lid for Blasius
* I tried the 2 P_ext - P_int strategy from Mengaldo (constant density)
and with specified exterior temperature, but they disrupted the interior
flow and were not significantly less reflective.
* The methods I tried for extrapolating interior temperature were not
stable. Simple extrapolation of velocity worked best, and did not show
signs of instability, perhaps because the neighboring flow and implicit
solve ties it together.
* This commit adds support for softmax control of recirculation, but the
parameters were finnicky, solver nonlinearity was a concern, and I'm not
convinced it's ever better than just allowing recirculation.
|
| H A D | blasius_stgtest.yaml | 8a94a473032dc6ed59a2cf0afe1d886fbdb591f4 Thu Jan 05 01:15:44 UTC 2023 Jed Brown <jed@jedbrown.org> examples/fluids: Riemann outflow using pressure and temperature
* This allows stable sustained and transient recirculation.
* short-wake domain recirculation behind cylinder has sustained
recirculation. If the exterior temperature is different, the
recirculation will bring in the wrong temperature, but at least
it's stable.
* nwave with slow background causes transient flow reversal when
strong acoustic hits boundary.
* Clean outflow and lid for Blasius
* I tried the 2 P_ext - P_int strategy from Mengaldo (constant density)
and with specified exterior temperature, but they disrupted the interior
flow and were not significantly less reflective.
* The methods I tried for extrapolating interior temperature were not
stable. Simple extrapolation of velocity worked best, and did not show
signs of instability, perhaps because the neighboring flow and implicit
solve ties it together.
* This commit adds support for softmax control of recirculation, but the
parameters were finnicky, solver nonlinearity was a concern, and I'm not
convinced it's ever better than just allowing recirculation.
|
| /libCEED/examples/fluids/qfunctions/ |
| H A D | newtonian_state.h | 8a94a473032dc6ed59a2cf0afe1d886fbdb591f4 Thu Jan 05 01:15:44 UTC 2023 Jed Brown <jed@jedbrown.org> examples/fluids: Riemann outflow using pressure and temperature
* This allows stable sustained and transient recirculation.
* short-wake domain recirculation behind cylinder has sustained
recirculation. If the exterior temperature is different, the
recirculation will bring in the wrong temperature, but at least
it's stable.
* nwave with slow background causes transient flow reversal when
strong acoustic hits boundary.
* Clean outflow and lid for Blasius
* I tried the 2 P_ext - P_int strategy from Mengaldo (constant density)
and with specified exterior temperature, but they disrupted the interior
flow and were not significantly less reflective.
* The methods I tried for extrapolating interior temperature were not
stable. Simple extrapolation of velocity worked best, and did not show
signs of instability, perhaps because the neighboring flow and implicit
solve ties it together.
* This commit adds support for softmax control of recirculation, but the
parameters were finnicky, solver nonlinearity was a concern, and I'm not
convinced it's ever better than just allowing recirculation.
|
| H A D | newtonian.h | 8a94a473032dc6ed59a2cf0afe1d886fbdb591f4 Thu Jan 05 01:15:44 UTC 2023 Jed Brown <jed@jedbrown.org> examples/fluids: Riemann outflow using pressure and temperature
* This allows stable sustained and transient recirculation.
* short-wake domain recirculation behind cylinder has sustained
recirculation. If the exterior temperature is different, the
recirculation will bring in the wrong temperature, but at least
it's stable.
* nwave with slow background causes transient flow reversal when
strong acoustic hits boundary.
* Clean outflow and lid for Blasius
* I tried the 2 P_ext - P_int strategy from Mengaldo (constant density)
and with specified exterior temperature, but they disrupted the interior
flow and were not significantly less reflective.
* The methods I tried for extrapolating interior temperature were not
stable. Simple extrapolation of velocity worked best, and did not show
signs of instability, perhaps because the neighboring flow and implicit
solve ties it together.
* This commit adds support for softmax control of recirculation, but the
parameters were finnicky, solver nonlinearity was a concern, and I'm not
convinced it's ever better than just allowing recirculation.
|
| /libCEED/examples/fluids/ |
| H A D | index.md | 8a94a473032dc6ed59a2cf0afe1d886fbdb591f4 Thu Jan 05 01:15:44 UTC 2023 Jed Brown <jed@jedbrown.org> examples/fluids: Riemann outflow using pressure and temperature
* This allows stable sustained and transient recirculation.
* short-wake domain recirculation behind cylinder has sustained
recirculation. If the exterior temperature is different, the
recirculation will bring in the wrong temperature, but at least
it's stable.
* nwave with slow background causes transient flow reversal when
strong acoustic hits boundary.
* Clean outflow and lid for Blasius
* I tried the 2 P_ext - P_int strategy from Mengaldo (constant density)
and with specified exterior temperature, but they disrupted the interior
flow and were not significantly less reflective.
* The methods I tried for extrapolating interior temperature were not
stable. Simple extrapolation of velocity worked best, and did not show
signs of instability, perhaps because the neighboring flow and implicit
solve ties it together.
* This commit adds support for softmax control of recirculation, but the
parameters were finnicky, solver nonlinearity was a concern, and I'm not
convinced it's ever better than just allowing recirculation.
|
| H A D | README.md | 8a94a473032dc6ed59a2cf0afe1d886fbdb591f4 Thu Jan 05 01:15:44 UTC 2023 Jed Brown <jed@jedbrown.org> examples/fluids: Riemann outflow using pressure and temperature
* This allows stable sustained and transient recirculation.
* short-wake domain recirculation behind cylinder has sustained
recirculation. If the exterior temperature is different, the
recirculation will bring in the wrong temperature, but at least
it's stable.
* nwave with slow background causes transient flow reversal when
strong acoustic hits boundary.
* Clean outflow and lid for Blasius
* I tried the 2 P_ext - P_int strategy from Mengaldo (constant density)
and with specified exterior temperature, but they disrupted the interior
flow and were not significantly less reflective.
* The methods I tried for extrapolating interior temperature were not
stable. Simple extrapolation of velocity worked best, and did not show
signs of instability, perhaps because the neighboring flow and implicit
solve ties it together.
* This commit adds support for softmax control of recirculation, but the
parameters were finnicky, solver nonlinearity was a concern, and I'm not
convinced it's ever better than just allowing recirculation.
|
| H A D | navierstokes.h | 8a94a473032dc6ed59a2cf0afe1d886fbdb591f4 Thu Jan 05 01:15:44 UTC 2023 Jed Brown <jed@jedbrown.org> examples/fluids: Riemann outflow using pressure and temperature
* This allows stable sustained and transient recirculation.
* short-wake domain recirculation behind cylinder has sustained
recirculation. If the exterior temperature is different, the
recirculation will bring in the wrong temperature, but at least
it's stable.
* nwave with slow background causes transient flow reversal when
strong acoustic hits boundary.
* Clean outflow and lid for Blasius
* I tried the 2 P_ext - P_int strategy from Mengaldo (constant density)
and with specified exterior temperature, but they disrupted the interior
flow and were not significantly less reflective.
* The methods I tried for extrapolating interior temperature were not
stable. Simple extrapolation of velocity worked best, and did not show
signs of instability, perhaps because the neighboring flow and implicit
solve ties it together.
* This commit adds support for softmax control of recirculation, but the
parameters were finnicky, solver nonlinearity was a concern, and I'm not
convinced it's ever better than just allowing recirculation.
|
| /libCEED/examples/fluids/problems/ |
| H A D | newtonian.c | 8a94a473032dc6ed59a2cf0afe1d886fbdb591f4 Thu Jan 05 01:15:44 UTC 2023 Jed Brown <jed@jedbrown.org> examples/fluids: Riemann outflow using pressure and temperature
* This allows stable sustained and transient recirculation.
* short-wake domain recirculation behind cylinder has sustained
recirculation. If the exterior temperature is different, the
recirculation will bring in the wrong temperature, but at least
it's stable.
* nwave with slow background causes transient flow reversal when
strong acoustic hits boundary.
* Clean outflow and lid for Blasius
* I tried the 2 P_ext - P_int strategy from Mengaldo (constant density)
and with specified exterior temperature, but they disrupted the interior
flow and were not significantly less reflective.
* The methods I tried for extrapolating interior temperature were not
stable. Simple extrapolation of velocity worked best, and did not show
signs of instability, perhaps because the neighboring flow and implicit
solve ties it together.
* This commit adds support for softmax control of recirculation, but the
parameters were finnicky, solver nonlinearity was a concern, and I'm not
convinced it's ever better than just allowing recirculation.
|