because if that is done, the integration for the production total is
wrong because the time step length is days and not seconds.
Note that the conversion now uses Opm::unit::convert::to(<>,
1/conversionFactor) instead of simply multiplying with the conversion
factor. I still think this obfuscates things more than it helps, but
[at] bska will hopefully want it this way...
Using "simple", the Norne deck aborts with an exception.
Note: SPE1 and SPE9 still seem to work fine with this but there might
be small differences so that the reference solutions of the Jenkins
server might need to be updated...
Commit 96cf137 introduced support for Peaceman index calculation
that honoured general completion directions (X,Y,Z). This was
accomplished through a permutation index that reordered the
permeability and geometric extent components according to a local
coordinate system along the completion.
In a complete breakdown of logic, however, the d-component extent
vector was indexed as though it were a d-by-d matrix. This commit
restores sanity to the processing.
Pointy hat: @bska.
This commit extends the feature set of the WellsManager to support
horizontal ("X" and "Y") completions and include the net-to-gross
ratio in the Peaceman index ("Completion Transmissibility Factor,
CTF") of a well completion. The NTG factor is included if present
in the input deck represented by the "eclipseState".
There are two separate, though related, parts to this commit. The
first part splits the calculation of Peaceman's "effective radius"
out to a separate utility function, effectiveRadius(), and
generalises WellsManagerDetail::computeWellIndex() to account for
arbitrary directions and NTG factors. The second part uses
GridPropertyAccess::Compressed<> to extract the NTG vector from the
input if present while providing a fall-back value of 1.0 if no such
vector is available.
Note: We may wish to make the extraction policy configurable at some
point in the future.
This commit tightens the function header of method
WellsManager::createWellsFromSpecs()
to accept a reference-to-const 'cartesian_to_compressed' map. It
used to be a complete, copy-constructed object, so this is a slight
performance enhancement as we no longer need to copy a (somewhat)
large object on every call to the method.
This commit generalises the implementation of utility function
'getCubeDim' to support arbitrary number of space dimensions. In
actual practice there's no change in features as we only really use
a compile-time constant (= 3) to specify the number of space
dimensions.
