For constant capillar pressure function the saturation is
determined by cell depths:
Sg_max, Sw_min
----- goc ----
Sg_min, Sw_min
----- woc ----
Sg_min, Sw_max
This commit removes several instances of EOL whitespace in function
'swatInitScaling()'. Aesthetic only. No functional changes.
Suggested by: [at] atgeirr
The constant 1.0e-8 was used as a threshold to distinguish "low"
from "high" capillary pressure values. Introduce acutual constant
"pc_low_threshold" to clarify that role.
Suggested by: [at] atgeirr
This commit renames the 'np' parameter used to allocate small arrays
for saturations and capillary pressures to 'max_np' to better
reflect its purpose.
Suggested by: [at] atgeirr
instead, use Opm::EclipseState. This requires to pass the PhaseUsage
object to the EclipseWriter, as this one cannot be recovered from
EclipseState (yet?).
copying the EclipseGrid object is required as the final set of active
cells requires knowledge of the grid used by the simulator which is
not available in opm-parser. In turn, this requires to call
EclipseGrid::resetACTNUM() which is non-const.
instead, the wrapper classes now call ERT directly, so it's easy to
see what a given class does. interestingly the amount of additional
code required is neglectible (or even negative).
ERT has been a requirement for opm-parser for a while now and
opm-parser is a prerequisite of opm-core, so ERT is always
available. Thus remove the stub code to avoid bitrot...
New function well_controls_clone(), implemented in terms of the
public API only, mirrors the objective of function clone_wells(),
only for well control sets. Add a basic test to demonstrate the
function too.
The 'cpty' field is for internal memory management purposes only.
No client can know of its existence, let alone inspect or directly
change the value, so it should not be used to adjudicate control set
equality. This was useful during the refactoring work to introduce
the opm-parser support, but its utility has since ceased.
Okay'ed by: [at] atgeirr and [at] joakim-hove
Current version executes reordered solve once for each tracer. The benefit
is a simpler code and the ability to use MDU with tracers. The cost is
potentially higher runtime, compared to doing a single sweep for all
tracers (and tof).
When this boolean parameter is true (the default), tracer solutions
will be normalized so that the tracer averages will sum to one in each cell.
This behaviour is the same as before, the change is that it can now be
turned off.
