Effect of borehole stress concentration on compressional wave velocity measurements

• dc.contributor.author: Fang, Xinding
• dc.contributor.author: Fehler, Michael
• dc.contributor.author: Cheng, Arthur
• dc.contributor.other: Massachusetts Institute of Technology. Earth Resources Laboratory
• dc.date.issued: 2013
• dc.identifier.uri: http://hdl.handle.net/1721.1/90514
• dc.description.abstract: Formation elastic properties near a borehole may be altered from their original state due to the stress concentration around the borehole. This could lead to a biased estimation of formation elastic properties measured from sonic logging data. To study the effect of stress concentration around a borehole on sonic logging, we first use an iterative approach, which combines a rock physics model and a finite-element method, to calculate the stress-dependent elastic properties of the rock around a borehole when it is subjected to an anisotropic stress loading. Then we use the anisotropic elastic model obtained from the first step and a finite-difference method to simulate the acoustic response in a borehole. Our numerical results are consistent with published laboratory measurements of the azimuthal velocity variations caused by borehole stress concentration. Both numerical and experimental results show that the variation of P-wave velocity versus azimuth has broad maxima and cusped minima, which is different from the presumed cosine behavior. This is caused by the preference of the wavefield to propagate through a higher velocity region.
• dc.language.iso: en_US
• dc.publisher: Massachusetts Institute of Technology. Earth Resources Laboratory
• dc.relation.ispartofseries: Earth Resources Laboratory Industry Consortia Annual Report;2013-11
• dc.subject: Logging
• dc.subject: Modeling
• dc.type: Technical Report