- 作者:Hamed Soroush ; Vamegh Rasouli ; Behzad Tokhmechi
- 关键词:Geomechanics ; Gas shale ; Borehole enlargement ; Bayesian classification ; Wavelet de-noising ; Data fusion
- 刊名:Journal of Petroleum Science and Engineering
- 出版年:2010
- 出版时间:November 2010
- 年:2010
- 卷:74
- 期:3-4
- 页码:154-162
- 全文大小:699 K
Borehole enlargements or specifically breakouts provide valuable information for evaluation of in-situ stresses and verification of geomechanical models. Customarily used methods to identify breakouts, i.e., caliper and image logs, suffer from several limitations. In addition, good quality image logs are not usually available in shaly formations due to requirement of using oil-based mud. This led to the need for developing a new technique to identify borehole enlargement zones using petrophysical logs which are often acquired in majority of the wells.
This study proposes a new multi-variable approach to identify borehole enlargement zones in tight gas shale using some petrophysical logs, mud weight and overburden stress data. This approach employs number of data processing techniques including Bayesian classification, wavelet decomposition and data fusion to determine borehole intervals with maximum likelihood of enlargement. This paper explains the methodology and presents its results in four study wells in Barnett gas shale. The study confirms the applicability and the generalization capability of the approach in shaly formations with a significant accuracy.