Exemplo n.º 1
0
//--------------------------------------------------------------------------------------------------
/// 
//--------------------------------------------------------------------------------------------------
double RimSimWellInView::pipeRadius()
{
    RimEclipseView* reservoirView;
    firstAncestorOrThisOfTypeAsserted(reservoirView);

    RigEclipseCaseData* rigReservoir = reservoirView->eclipseCase()->eclipseCaseData();
    
    double characteristicCellSize = rigReservoir->mainGrid()->characteristicIJCellSize();

    double pipeRadius = reservoirView->wellCollection()->pipeScaleFactor() * this->pipeScaleFactor() * characteristicCellSize;

    return pipeRadius;
}
Exemplo n.º 2
0
//--------------------------------------------------------------------------------------------------
/// frameIndex = -1 will use the static well frame
//--------------------------------------------------------------------------------------------------
void RimSimWellInView::wellHeadTopBottomPosition(int frameIndex, cvf::Vec3d* top, cvf::Vec3d* bottom)
{

    RimEclipseView* m_rimReservoirView;
    firstAncestorOrThisOfTypeAsserted(m_rimReservoirView);
    
    RigEclipseCaseData* rigReservoir = m_rimReservoirView->eclipseCase()->eclipseCaseData();

    const RigWellResultFrame* wellResultFramePtr = nullptr;
    const RigCell* whCellPtr = nullptr;

    if (frameIndex >= 0)
    {
        if ( !this->simWellData()->hasAnyValidCells(frameIndex) ) return;

        wellResultFramePtr = &(this->simWellData()->wellResultFrame(frameIndex));
        whCellPtr = &(rigReservoir->cellFromWellResultCell(wellResultFramePtr->wellHeadOrStartCell()));
    }
    else
    {
        wellResultFramePtr = &(this->simWellData()->staticWellCells());
        whCellPtr = &(rigReservoir->cellFromWellResultCell(wellResultFramePtr->wellHeadOrStartCell()));
    }

    const RigWellResultFrame& wellResultFrame = *wellResultFramePtr;
    const RigCell& whCell = *whCellPtr;

    // Match this position with pipe start position in RivWellPipesPartMgr::calculateWellPipeCenterline()

    (*bottom) = whCell.faceCenter(cvf::StructGridInterface::NEG_K);

    // Compute well head based on the z position of the top of the K column the well head is part of
    (*top) = (*bottom);
    if ( m_rimReservoirView->wellCollection()->wellHeadPosition() == RimSimWellInViewCollection::WELLHEAD_POS_TOP_COLUMN )
    {
        // Position well head at top active cell of IJ-column

        size_t i, j, k;
        rigReservoir->mainGrid()->ijkFromCellIndex(whCell.mainGridCellIndex(), &i, &j, &k);

        size_t kIndexWellHeadCell = k;
        k = 0;

        size_t topActiveCellIndex = rigReservoir->mainGrid()->cellIndexFromIJK(i, j, k);
        while ( k < kIndexWellHeadCell && !m_rimReservoirView->currentActiveCellInfo()->isActive(topActiveCellIndex) )
        {
            k++;
            topActiveCellIndex = rigReservoir->mainGrid()->cellIndexFromIJK(i, j, k);
        }

        const RigCell& topActiveCell = rigReservoir->mainGrid()->cell(topActiveCellIndex);
        cvf::Vec3d topCellPos = topActiveCell.faceCenter(cvf::StructGridInterface::NEG_K);

        // Modify position if top active cell is closer to sea than well head
        if ( kIndexWellHeadCell > k )
        {
            top->z() = topCellPos.z();
        }
    }
    else
    {
        // Position well head at top of active cells bounding box

        cvf::Vec3d activeCellsBoundingBoxMax = m_rimReservoirView->currentActiveCellInfo()->geometryBoundingBox().max();

        top->z() = activeCellsBoundingBoxMax.z();
    }
}