Resultado de búsqueda
1 de mar. de 2021 · We investigate the dynamic effects of using stair-step grid (SSG) and corner-point grid (CPG) approaches for fault modeling from the perspective of dynamic reservoir performance forecasting.
- Dynamic effects of fault modeling on stair-step and ... - ResearchGate
We investigate the dynamic eects of using stair-step grid...
- Dynamic effects of fault modeling on stair-step and ... - ResearchGate
6 de feb. de 2021 · We investigate the dynamic effects of using stair-step grid (SSG) and corner-point grid (CPG) approaches for fault modeling from the perspective of dynamic reservoir performance forecasting. We have performed a number of grid convergence and grid-type sensitivity studies for a variety of simple, yet intuitive faulted flow simulation problems ...
We investigate the dynamic eects of using stair-step grid (SSG) and corner-point grid (CPG) approaches for fault modeling from the perspective of dynamic reservoir performance forecasting.
1 de ene. de 2010 · Steep stairs, caused by risers that are too great and or by goings (runs) that are too small, contribute to an increased risk of missteps, falls and injuries. Traditionally, building codes have...
Because they are composed of stair-step faults, the structural grids have desirable fault geometries for simulation, minimizing occurrences of non-orthogonal cells that can cause issues during simulation.
6 de feb. de 2016 · As shown in Figure 1, the step overs consist of two parallel fault segments, that is, the main fault (Fault 1) and the second fault (Fault 2), which are 40 and 14 km long in the fault-strike direction, respectively. Both fault segments extend to a depth of 15 km.
Stair-stepping the faults honors the shape of thrust faults better than treating these faults as pillars, and thus creates an accurate structural model. Wells are placed in the correct fault blocks, and property modeling is therefore correct.
