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ASEG Extended Abstracts
RESEARCH ARTICLE

Unexpected HTI velocity anisotropy: a wide-azimuth, low fold, 3D seismic processing case study

Randall Taylor, Simon Cordery, Sebastian Nixon and Karel Driml

ASEG Extended Abstracts 2013(1) 1 - 5
Published: 12 August 2013

Abstract

This case-study demonstrates seismic processing in the presence of Horizontal Transverse Isotropic (HTI) velocity anisotropy encountered in a low-fold land 3D survey in New Zealand. The HTI velocity anisotropy was unexpected, being suspected only after the initial poor stack response compared to vintage 2D sections in the area, and the sparse 3D design made it difficult to identify. The paper shows how anisotropy was singled out from other possible causes, such as geometry errors. We discuss the key steps of the processing flow incorporated to deal with the HTI anisotropy to attain a high quality final processed volume. In particular we show data examples after the application of azimuthally dependant NMO velocities, along with pre-stack HTI migration. Examples are shown which demonstrate the preservation of the HTI anisotropy before and after 5D trace interpolation. Maps and vertical profiles of 3D attributes are used to demonstrate the magnitude and direction of the HTI velocity field, which varies 5% to 10% between the fast and slow horizontal directions. These observations coincide with the local stress state deduced from borehole break-out studies. We conclude that the fast velocity direction corresponds to the present maximum horizontal stress direction. Finally the paper summarises the implications for processing wide azimuth 3D data in this area and suggests improvements for future 3D survey design. Key words: Anisotropy, HTI, 3D Seismic, Stress.

https://doi.org/10.1071/ASEG2013ab253

© ASEG 2013

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