Fracture mapping using seismic amplitude variation with offset and azimuth analysis at the Weyburn CO2 storage site-Reference-Cited by-同舟云学术

Fracture mapping using seismic amplitude variation with offset and azimuth analysis at the Weyburn CO2 storage site

Published:2012-11-01 Issue:6 Volume:77 Page:B295-B306
ISSN:0016-8033
Container-title:GEOPHYSICS
language:en
Short-container-title:GEOPHYSICS

Author:

Duxbury Alexander¹,White Don²,Samson Claire³,Hall Stephen A.⁴,Wookey James⁵,Kendall J.-Michael⁵

Affiliation:

1. Formerly Carleton University, Ottawa, Ontario, Canada; presently Husky Energy, Calgary, Alberta, Canada..

2. Geological Survey of Canada, Ottawa, Ontario, Canada..

3. Carleton University, Earth Sciences, Ottawa, Ontario, Canada..

4. CNRS/Grenoble University, Laboratoire 3S-R, France..

5. University of Bristol, U. K..

Abstract

Cap rock integrity is an essential characteristic of any reservoir to be used for long-term [Formula: see text] storage. Seismic AVOA (amplitude variation with offset and azimuth) techniques have been applied to map HTI anisotropy near the cap rock of the Weyburn field in southeast Saskatchewan, Canada, with the purpose of identifying potential fracture zones that may compromise seal integrity. This analysis, supported by modeling, observes the top of the regional seal (Watrous Formation) to have low levels of HTI anisotropy, whereas the reservoir cap rock (composite Midale Evaporite and Ratcliffe Beds) contains isolated areas of high intensity anisotropy, which may be fracture-related. Properties of the fracture fill and hydraulic conductivity within the inferred fracture zones are not constrained using this technique. The predominant orientations of the observed anisotropy are parallel and normal to the direction of maximum horizontal stress (northeast–southwest) and agree closely with previous fracture studies on core samples from the reservoir. Anisotropy anomalies are observed to correlate spatially with salt dissolution structures in the cap rock and overlying horizons as interpreted from 3D seismic cross sections.

Publisher

Society of Exploration Geophysicists

Subject

Geochemistry and Petrology,Geophysics

Link

https://library.seg.org/doi/pdf/10.1190/geo2011-0075.1

Reference32 articles.

1. Adam, L., 2003, Anisotropic parameter estimation from borehole data at Weyburn field: Uncertainty and resolution: M.S. thesis, Colorado School of Mines.

2. P-wave anisotropy from azimuthal AVO and velocity estimates using 3D seismic data from Saudi Arabia

3. Beliveau, D. A., D. A. Payne, and M. Mundry, 1991, Analysis of the waterflood response of a naturally fractured reservoir: 66th Annual Technical Conference and Exhibition of the SPE, 603–613.

4. Bellefleur, G., L. Adam, D. White, B. Mattocks, and T. Davis, 2003, Seismic imaging and anisotropy analysis of 9C 3D-VSP data at Weyburn field, Saskatchewan, Canada: 73rd Annual International Meeting, SEG, Expanded Abstracts, 1326–1329.

5. Brown, L. T., 2002, Integration of rock physics and reservoir simulation for the interpretation of time-lapse seismic data at Weyburn field, Saskatchewan: M.S. thesis, Colorado School of Mines.

Cited by 25 articles. 订阅此论文施引文献订阅此论文施引文献，注册后可以免费订阅5篇论文的施引文献，订阅后可以查看论文全部施引文献

1. Cluster deployment of sequencing for carbon capture, usage as water filters and storage at Yulin, Shaanxi Province, China;Desalination and Water Treatment;2023-12

2. Amplitude variation with offset and azimuth inversion to predict and evaluate coal seam fracture parameters;Frontiers of Earth Science;2023-06

3. Carbon Capture and Storage: History and the Road Ahead;Engineering;2022-07

4. Frequency-dependent AVO analysis in fracture porous media;SEG Technical Program Expanded Abstracts 2020;2020-09-30

5. Frequency-dependent AVO analysis in fracture porous media;2nd SEG Rock Physics Workshop: Challenges in Deep and Unconventional Oil/Gas Exploration, Qingdao, China, 25–27 October 2019;2020-04-13