Orthogonal computations and analysis of flow performances for the Berea sandstone perforation tunnel

Jin Zhu Li; Shou Gang Guo; Feng Lei Huang

doi:10.7511/jslx201403021

Orthogonal computations and analysis of flow performances for the Berea sandstone perforation tunnel

Jin Zhu Li^*, Shou Gang Guo, Feng Lei Huang

^*Corresponding author for this work

School of Mechatronical Engineering

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

Abstract

The engineering expressions of the axial and radial flow were given out based on the dimensional analysis of the influence factors on the perforation tunnel flow performance. To reduce computation cost, the orthogonal calculation scheme was designed in terms of the main influence factors and their value ranges. The flow rate of Berea sandstone tunnel with damaged zone was numerically simulated by using ANSYS/FLOTRAN. The axial and radial flow were obtained, which are used to fit the constants of the flow engineering expressions with the least square polynomial fitting. The final engineering expressions of the axial and radial flow show that the order of the influence on flow is: original permeability, thickness of damage zone, perforation depth, decreasing degree of permeability, perforation diameter.

Original language	English
Pages (from-to)	408-412
Number of pages	5
Journal	Jisuan Lixue Xuebao/Chinese Journal of Computational Mechanics
Volume	31
Issue number	3
DOIs	https://doi.org/10.7511/jslx201403021
Publication status	Published - Jun 2014

Keywords

Damage zone
Flow expression
Orthogonal computation
Perforation tunnel
Permeability

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abstract = "The engineering expressions of the axial and radial flow were given out based on the dimensional analysis of the influence factors on the perforation tunnel flow performance. To reduce computation cost, the orthogonal calculation scheme was designed in terms of the main influence factors and their value ranges. The flow rate of Berea sandstone tunnel with damaged zone was numerically simulated by using ANSYS/FLOTRAN. The axial and radial flow were obtained, which are used to fit the constants of the flow engineering expressions with the least square polynomial fitting. The final engineering expressions of the axial and radial flow show that the order of the influence on flow is: original permeability, thickness of damage zone, perforation depth, decreasing degree of permeability, perforation diameter.",

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T1 - Orthogonal computations and analysis of flow performances for the Berea sandstone perforation tunnel

AU - Li, Jin Zhu

AU - Guo, Shou Gang

AU - Huang, Feng Lei

PY - 2014/6

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N2 - The engineering expressions of the axial and radial flow were given out based on the dimensional analysis of the influence factors on the perforation tunnel flow performance. To reduce computation cost, the orthogonal calculation scheme was designed in terms of the main influence factors and their value ranges. The flow rate of Berea sandstone tunnel with damaged zone was numerically simulated by using ANSYS/FLOTRAN. The axial and radial flow were obtained, which are used to fit the constants of the flow engineering expressions with the least square polynomial fitting. The final engineering expressions of the axial and radial flow show that the order of the influence on flow is: original permeability, thickness of damage zone, perforation depth, decreasing degree of permeability, perforation diameter.

AB - The engineering expressions of the axial and radial flow were given out based on the dimensional analysis of the influence factors on the perforation tunnel flow performance. To reduce computation cost, the orthogonal calculation scheme was designed in terms of the main influence factors and their value ranges. The flow rate of Berea sandstone tunnel with damaged zone was numerically simulated by using ANSYS/FLOTRAN. The axial and radial flow were obtained, which are used to fit the constants of the flow engineering expressions with the least square polynomial fitting. The final engineering expressions of the axial and radial flow show that the order of the influence on flow is: original permeability, thickness of damage zone, perforation depth, decreasing degree of permeability, perforation diameter.

KW - Damage zone

KW - Flow expression

KW - Orthogonal computation

KW - Perforation tunnel

KW - Permeability

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Orthogonal computations and analysis of flow performances for the Berea sandstone perforation tunnel

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Keywords

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