ned.
>>>>
>>>> With respect to your question what the difference is: you could achieve
>>>> the same thing manually by implementing the above mentioned stuff into the
>>>> neumann() function:
>>>> But note that especially for cell-c
ag
von lc
*Gesendet:* Montag, 3. Dezember 2018 12:37:19
*An:* dumux@listserv.uni-stuttgart.de
*Betreff:* [DuMuX] on IMPES, grid adaptation and BCs
Hello,
I have the following questions:
1) Is it possible to run IMPES algorithm in sequential (not implicit)
mode without considering capillarity forces
e
*Betreff:* [DuMuX] on IMPES, grid adaptation and BCs
Hello,
I have the following questions:
1) Is it possible to run IMPES algorithm in sequential (not implicit)
mode without considering capillarity forces (pressure)?
2) Is it possible to do some sort of grid adaptation, for example
loca
: Montag, 3. Dezember 2018 12:37:19
An: dumux@listserv.uni-stuttgart.de
Betreff: [DuMuX] on IMPES, grid adaptation and BCs
Hello,
I have the following questions:
1) Is it possible to run IMPES algorithm in sequential (not implicit)
mode without considering capillarity forces (pressure)?
2
Hello Lorenzo,
1) -The IMPES algorithm itself is sequential, so I do not understand the
question since it is sequential per definition.
-You could for example use Brooks-Corey and set the entry pressure
to zero.
2) You can find adaptive tests in
Hello,
I have the following questions:
1) Is it possible to run IMPES algorithm in sequential (not implicit)
mode without considering capillarity forces (pressure)?
2) Is it possible to do some sort of grid adaptation, for example
locally refine the (unstructrured) mesh where the water