Litcius/Paper detail

Modeling of fiber-optic strain responses to hydraulic fracturing

Zhishuai Zhang, Zijun Fang, Joe Stefani, James DiSiena, Dimitri Bevc, Ivan Lim Chen Ning, Kelly Hughes, Yunhui Tan

2020Geophysics58 citationsDOI

Abstract

Abstract We modeled cross-well strain/strain rate responses of fiber optic sensing, including distributed strain sensing (DSS) and low-frequency distributed acoustic sensing (DAS), to hydraulic stimulation. DSS and low-frequency DAS have been used to measure strain or the strain rate to characterize hydraulic fractures. However, the current application of DSS/DAS is limited to acquisition, processing, and qualitative interpretations. The lack of geomechanical models hinders the development of the technology toward quantitative interpretation and inversion. We have developed a strategy to use the displacement discontinuity method to model the strain field around kinematically propagating fractures. For a horizontal monitoring well, modeling results were able to explain the heart-shaped extending pattern before a fracture hit, the polarity flip due to fracture interaction during stimulation, and the V-shaped pattern when a fracture does not intersect with the monitoring well. For a vertical monitoring well, modeling shows the different characters of strain rate responses when a fracture is near and far away from a vertical monitoring well. We also investigated the effects of fractures with various geometries such as elliptic and layered fractures. We compared and verified the modeling with field data from the Hydraulic Fracturing Test Site 2, a research experiment performed in the Permian Basin. Our modeling work can be used to identify patterns in field observations. The results also help to improve acquisition design and lay the groundwork for quantitative interpretation and inversion.

Topics & Concepts

GeologyDiscontinuity (linguistics)Hydraulic fracturingFracture (geology)Strain rateDisplacement (psychology)WirelineInversion (geology)Geotechnical engineeringAcousticsSeismologyComputer scienceMaterials scienceTectonicsTelecommunicationsWirelessPsychologyMathematical analysisMetallurgyPhysicsPsychotherapistMathematicsSeismic Imaging and Inversion TechniquesSeismic Waves and AnalysisHydraulic Fracturing and Reservoir Analysis