Ray–Kirchhoff multicomponent borehole seismic modelling in 3D heterogeneous, anisotropic media |
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| Authors: | A Druzhinin |
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| Institution: | British Geological Survey, Murchison House, West Mains Road, Edinburgh EH9 3LA, UK |
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| Abstract: | Kirchhoff–Helmholtz (KH) theory is extended to synthesize two-way elastic wave propagation in 3D laterally heterogeneous, anisotropic media. I have developed and tested numerically a specialized algorithm for the generation of three-component synthetic seismograms in multi-layered isotropic and transversely isotropic (TI) media with dipping interfaces and tilted axes of symmetry. This algorithm can be applied to vertical seismic profile (VSP) geometries and works well when the receiver is located near the reflector interface. It is superior to ray methods in predicting elliptical polarization effects observed on radial and transverse components. The algorithm is used to study converted-wave propagation for determining fracture-related shear-wave anisotropy in realistic reservoir models. Results show that all wavefront attributes are strongly affected by the anisotropy. However, it is necessary to resolve a trade-off between the effects of fractures and formation dip prior to converted-wave interpretation. These results provide some assurance that the present scheme is sufficiently versatile to handle shear wave behaviour due to various generalized rays propagating in complex geological models. |
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| Keywords: | VSP Seismic modelling Kirchhoff– Helmholtz Two-way propagation 3D Anisotropy Dipping reflectors Converted waves |
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