Numerical treatment of temporal-fractional porous medium model occurring in fractured media

R. Meher; J. Kesarwani; Z. Avazzadeh; O. Nikan

doi:10.1016/j.joes.2022.02.016

Numerical treatment of temporal-fractional porous medium model occurring in fractured media

R. Meher, J. Kesarwani, Z. Avazzadeh^*, O. Nikan

^*Corresponding author for this work

Department of Applied Mathematics

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

8 Citations (Scopus)

Abstract

This paper proposes a temporal-fractional porous medium model (T-FPMM) for describing the co-current and counter-current imbibition, which arises in a water-wet fractured porous media. The correlation between the co-current and counter-current imbibition for the fractures and porous matrix are examined to determine the saturation and recovery rate of the reservoir. For different fractional orders in both porous matrix and fractured porous media, the homotopy analysis technique and its stability analysis are used to explore the parametric behavior of the saturation and recovery rates. Finally, the effects of wettability and inclination on the recovery rate and saturation are studied for distinct fractional values.

Original language	English
Pages (from-to)	481-499
Number of pages	19
Journal	Journal of Ocean Engineering and Science
Volume	8
Issue number	5
DOIs	https://doi.org/10.1016/j.joes.2022.02.016
Publication status	Published - Oct 2023

Keywords

Caputo fractional derivative
Co-current imbibition
Fractured porous media
Time-fractional partial differential equation

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10.1016/j.joes.2022.02.016

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title = "Numerical treatment of temporal-fractional porous medium model occurring in fractured media",

abstract = "This paper proposes a temporal-fractional porous medium model (T-FPMM) for describing the co-current and counter-current imbibition, which arises in a water-wet fractured porous media. The correlation between the co-current and counter-current imbibition for the fractures and porous matrix are examined to determine the saturation and recovery rate of the reservoir. For different fractional orders in both porous matrix and fractured porous media, the homotopy analysis technique and its stability analysis are used to explore the parametric behavior of the saturation and recovery rates. Finally, the effects of wettability and inclination on the recovery rate and saturation are studied for distinct fractional values.",

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AU - Meher, R.

AU - Kesarwani, J.

AU - Avazzadeh, Z.

AU - Nikan, O.

PY - 2023/10

Y1 - 2023/10

N2 - This paper proposes a temporal-fractional porous medium model (T-FPMM) for describing the co-current and counter-current imbibition, which arises in a water-wet fractured porous media. The correlation between the co-current and counter-current imbibition for the fractures and porous matrix are examined to determine the saturation and recovery rate of the reservoir. For different fractional orders in both porous matrix and fractured porous media, the homotopy analysis technique and its stability analysis are used to explore the parametric behavior of the saturation and recovery rates. Finally, the effects of wettability and inclination on the recovery rate and saturation are studied for distinct fractional values.

AB - This paper proposes a temporal-fractional porous medium model (T-FPMM) for describing the co-current and counter-current imbibition, which arises in a water-wet fractured porous media. The correlation between the co-current and counter-current imbibition for the fractures and porous matrix are examined to determine the saturation and recovery rate of the reservoir. For different fractional orders in both porous matrix and fractured porous media, the homotopy analysis technique and its stability analysis are used to explore the parametric behavior of the saturation and recovery rates. Finally, the effects of wettability and inclination on the recovery rate and saturation are studied for distinct fractional values.

KW - Caputo fractional derivative

KW - Co-current imbibition

KW - Fractured porous media

KW - Time-fractional partial differential equation

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DO - 10.1016/j.joes.2022.02.016

M3 - Article

AN - SCOPUS:85126088218

SN - 2468-0133

VL - 8

SP - 481

EP - 499

JO - Journal of Ocean Engineering and Science

JF - Journal of Ocean Engineering and Science

IS - 5

ER -

Numerical treatment of temporal-fractional porous medium model occurring in fractured media

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Keywords

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