Rock Physics and Seismic Modelling

A. Draege

doi:10.3997/2214-4609.201414400

Rock Physics and Seismic Modelling
By A. Draege¹
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Affiliations: ¹ Statoil
Publisher: European Association of Geoscientists & Engineers
Source: Conference Proceedings, Third EAGE Workshop on Rock Physics, Nov 2015, Volume 2015, p.1 - 5
DOI: https://doi.org/10.3997/2214-4609.201414400

Abstract

Summary

This study shows a new way of applying rock physics depth trends. In seismic modeling we want to preserve internal geological variations in a system, even if depth and temperature change and diagenesis progresses. We suggest a workflow for creating realistic depth trends for whole geological systems, while honouring the internal variations within the system.

A shale - sand interface can appear as soft, dim or hard, dependent on where in the diagenetic process the rocks are. This is also reflected in the rock physics approach described.

The vertical variation observed in a geological system will be honored when applying it as an analogue on a new location, to create a realistic representation of the subsurface geology in the prospect area.

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2015-11-15

2024-04-19

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References

Dræge, A.
[2011] A diagenetic rock physics approach for siliciclastics. The Leading Edge, 30, 1368–1375.
[Google Scholar]
Walderhaug, O.
[1996] Kinetic modelling of quartz cementation and porosity loss in deeply buried sandstone reservoirs. AAPG Bulletin, 80(5), 731–745.
[Google Scholar]

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Rock Physics and Seismic Modelling

Conference Proceedings 2015, 1 (2015); https://doi.org/10.3997/2214-4609.201414400

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Rock Physics and Seismic Modelling

Abstract

From This Site

Most Read This Month

Most Cited This Month Most Cited RSS feed

The natural combination of full and image‐based waveform inversion

Poststack diffraction imaging using reverse‐time migration

Characterizing the effect of elastic interactions on the effective elastic properties of porous, cracked rocks

Fracture detection by Gaussian beam imaging of seismic data and image spectrum analysis

Laboratory measurements of guided‐wave propagation within a fluid‐saturated fracture