4.6 Article

Evolution mechanism of optical fiber strain induced by multi-fracture growth during fracturing in horizontal wells

Journal

PETROLEUM EXPLORATION AND DEVELOPMENT
Volume 49, Issue 1, Pages 211-222

Publisher

KEAI PUBLISHING LTD
DOI: 10.1016/S1876-3804(22)60017-X

Keywords

horizontal well; multi-stage fracturing; optical fiber strain; strain distribution; forward model; identification of multi-fracture growth

Funding

  1. National Natural Science Foundation of China [52104060]
  2. Project of Natural Science Outstanding Youth Foundation of Shandong [ZR2019QEE005]

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A forward model for optical fiber strain based on a planar 3D multi-fracture model was established, and a forward method to calculate distributed fiber strain induced by multi-fracture growth was proposed. Numerical simulations were conducted to study the fiber strain evolution during fracturing of a horizontal well. The results showed that fiber strain evolution can be divided into three stages, while fiber strain rate evolution has four stages. The straight-line convergence band of distributed fiber strain or strain rate can identify the time when the fracture extends to the fiber and inter-well pressure channeling. Moreover, the instants of fractures reaching the fiber monitoring well can be used to evaluate the non-uniform growth of multiple fractures.
A forward model for optical fiber strain was established based on a planar 3D multi-fracture model. Then the forward method calculating distributed fiber strain induced by multi-fracture growth was proposed. Based on this method, fiber strain evolution during fracturing of the horizontal well was numerically simulated. Fiber strain evolution induced by fracture growth can be divided into three stages: strain increasing, shrinkage convergence, and straight-line convergence, whereas the evolution of fiber strain rate has four stages: strain rate increasing, shrinkage convergence, straight-line convergence, and strain rate reversal after pumping stops. Fiber strain does not flip after pumping stop, while the strain rate flips after pumping stop so that strain rate can reflect injection dynamics. The time when the fracture extends to the fiber and inter-well pressure channeling can be identified by the straight-line convergence band of distributed fiber strain or strain rate, and the non-uniform growth of multiple fractures can be evaluated by using the instants of fractures reaching the fiber monitoring well. When the horizontal section of the fiber monitoring well is within the height range of a hydraulic fracture, the instant of the fracture reaching the fiber can be identified; otherwise, the converging band is not apparent. In multi-stage fracturing, under the influence of stress shadow from previous fracturing stages, the tensile region of fiber strain may not appear, but the fiber strain rate can effectively show the fracture growth behavior in each stage. The evolution law of fiber strain rate in single-stage fracturing can be applied to multi-stage fracturing.

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