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Collaborating Authors
Results
Tube Wave Propagation In Complex Viscoelastic Borehole Environments: A Numerical Method For Case Studies
Falk, Joachim (University of Hamburg, Germany) | Scheele, Matthias (University of Hamburg, Germany) | Tessmer, Ekkehart (University of Hamburg, Germany) | Gajewski, Dirk (University of Hamburg, Germany)
This results in the application of memory variables, which account for Numerical simulation of tube wave propagation in the low the stress relaxation and strain retardation for a generalized frequency range by direct solutions of the elasto-dynamic Maxwell-body consisting of a superposition of equations is an obviously unsolvable task on the basis several standard linear solids (SLS) (e.g., Emmerich and of equidistant numerical grids. The reason is that one Korn, 1987; Carcione, 1993; Robertsson et al., 1994).
approximation, attenuation, borehole, borehole environment, complex viscoelastic borehole environment, geophysics, grid, grid point, log analysis, material property, modeling, modeling scheme, propagation, Reservoir Characterization, reservoir simulation, slowness, tube wave, Upstream Oil & Gas, wave propagation, wavefield, waveform, well logging
Geophysics:
- Geophysics > Borehole Geophysics (1.00)
- Geophysics > Seismic Surveying > Seismic Modeling (0.69)
- Geophysics > Seismic Surveying > Seismic Processing (0.48)
SPE Disciplines:
- Reservoir Description and Dynamics > Reservoir Simulation (1.00)
- Reservoir Description and Dynamics > Reservoir Characterization > Seismic processing and interpretation (1.00)
- Reservoir Description and Dynamics > Formation Evaluation & Management > Open hole/cased hole log analysis (1.00)
- Data Science & Engineering Analytics > Information Management and Systems (1.00)