Journal of Petroleum Exploration and Production Technology (Mar 2021)

A coupling flow model for fractured horizontal well and anisotropic tight gas reservoir

  • P. Q. Lian,
  • C. Y. Ma,
  • T. Z. Duan,
  • H. W. Zhao

DOI
https://doi.org/10.1007/s13202-021-01086-5
Journal volume & issue
Vol. 11, no. 4
pp. 1873 – 1883

Abstract

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Abstract The development of multistage fracturing technology in horizontal wells is a great impulsion to the successful development of unconventional resources. The hydraulic fractures distribute regularly along the horizontal wellbore, forming a seepage channel for fluids in tight gas reservoir and greatly improving the productivity of horizontal wells. Based on Green function and Neumann product principle, we establish a flow model of fractured horizontal well coupled with anisotropic tight gas reservoir under both unsteady state and pseudo-steady state and propose a method to solve this model. The calculation results show that flow rate of horizontal well under the early unsteady state is larger than that under the pseudo-steady state. There is no interference among fractures in the early unsteady state, and flow rate is in direct proportion to fracture numbers. Affected by frictional and acceleration pressure drop, flow rate of the end fractures is obviously larger than other fractures in pseudo-steady state. The permeabilities in different directions have great influence on well flow rate distribution. With the increasing K x , the interference between the fractures is reduced, and the flow distribution is more balanced. When K y becomes larger, the interference between fractures are stronger, and the “U” shape distribution of the wellbore flow is more significant.

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