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Aliev, Fikret, Jamalbayov, Mahammad, Alizadeh, Nargiz, Hajiyeva, Nazile, Ahmadian, Davood. (1404). Flow of gas-condensate system in a time-dependent deformable reservoir with rock creep effect in the well Bottomhole zone. سامانه مدیریت نشریات علمی, 13(3), 828-838. doi: 10.22034/cmde.2024.62354.2745
Fikret A. Aliev; Mahammad Jamalbayov; Nargiz Alizadeh; Nazile Hajiyeva; Davood Ahmadian. "Flow of gas-condensate system in a time-dependent deformable reservoir with rock creep effect in the well Bottomhole zone". سامانه مدیریت نشریات علمی, 13, 3, 1404, 828-838. doi: 10.22034/cmde.2024.62354.2745
Aliev, Fikret, Jamalbayov, Mahammad, Alizadeh, Nargiz, Hajiyeva, Nazile, Ahmadian, Davood. (1404). 'Flow of gas-condensate system in a time-dependent deformable reservoir with rock creep effect in the well Bottomhole zone', سامانه مدیریت نشریات علمی, 13(3), pp. 828-838. doi: 10.22034/cmde.2024.62354.2745
Aliev, Fikret, Jamalbayov, Mahammad, Alizadeh, Nargiz, Hajiyeva, Nazile, Ahmadian, Davood. Flow of gas-condensate system in a time-dependent deformable reservoir with rock creep effect in the well Bottomhole zone. سامانه مدیریت نشریات علمی, 1404; 13(3): 828-838. doi: 10.22034/cmde.2024.62354.2745

Flow of gas-condensate system in a time-dependent deformable reservoir with rock creep effect in the well Bottomhole zone

Computational Methods for Differential Equations
مقاله 8، دوره 13، شماره 3، مهر 2025، صفحه 828-838    اصل مقاله (410.98 K)
نوع مقاله: Research Paper
شناسه دیجیتال (DOI): 10.22034/cmde.2024.62354.2745
نویسندگان
Fikret A. Aliev* 1؛ Mahammad Jamalbayov2؛ Nargiz Alizadeh3؛ Nazile Hajiyeva1؛ Davood Ahmadian4
1Institute of Applied Mathematics, Baku State University, Baku, Azerbaijan.
2SOCAR Oil Gas Scientific Research Project Institute, Baku, Azerbaijan.
3Military Institute named after Heydar Aliyev, Baku, Azerbaijan.
4Faculty of Mathematics, Statistics and Computer Science, University of Tabriz, Tabriz, Iran.
چکیده
 The problem of ow of a gas-condensate system to a draining from a time-dependent deformable formation is considered in the case where the laws of compressibility of reservoir rocks in the bottomhole zone and in the part of the reservoir remote from the well differ. Using the idea of a binary representation of a gas-condensate system, a semi-analytical solution to the considered problem is obtained, an algorithm is proposed for calculating the main indicators of depletion of a gas-condensate reservoir, for the case when near the well (inner zone) the formation undergoes creep, and in the distant part of the reservoir (outer zone) elastic deformation occurs. Based on this algorithm, a computer simulator of the considered process created. The results of a study of the influence of the noted factor on the main indicators of the depletion process of gas-condensate deposits represented by time-dependent (relaxing) reservoirs showed that taking into account the rheological characteristics of the reservoir in the well bottom-hole zone significantly refines the forecasting of the main development indicators. It has been established that when the creep effect of formation rocks in the near-wellbore zone is taken into account, the maximum difference in the current values of formation pressures reaches up to 12.53%. It corresponds to a gas recovery factor value of 0.55.
کلیدواژه‌ها
Gas-condensate system؛ Relaxation؛ Rocks creeping؛ Binary model؛ Depletion؛ Compressibility؛ Time-dependent deformation
مراجع
  • [1] R. P. Agarwal, A. M. Alghamdi, S. Gala, M. A. Ragusa, On the regularity for weak solutions to the micropolar fluid flows, Applied and Computational Mathematics, 23(4) (2024), 558–569.
  • [2] F. A. Aliev, A. N. Abbasov, R. A. Gurbanov, N. B. Nuriev, F. A. Guliev, and M. M. Mutallimov, Mathematical modeling for control problem and well subsurface pump units operation diagnostics in oil field, Appl. Comput. Math., 1(1) (2002), 93–105.
  • [3] F. A. Aliev, I. A. Dzhamalbekov, N. A. Veliev, I. R. Gasanov, and N. A. Alizade, Computer simulation of crude oil extraction using a sucker rod pumping unit in the oil well-resevoir system International Applied Mechanics, 55(3) (2019).
  • [4] F. A. Aliev, N. S. Guseinova, I. A. Maharramov, M. M. Mutallimov, A new run algorithm for solving the continuous linear-quadratic optimal control problem with unseparated boundary conditions, Journal of Computer and Systems Sciences International, 60 (2021), 48–55.
  • [5] F. A. Aliev, M. A. Jamalbayov, I. R. Hasanov, N. A. Valiyev, and N. S. Hajiyeva, Mathematical modeling of a nonlinear two-phase flow in a porous medium and the inflow of volatile oil to a well taking into account inertial effects, Computational Methods for Differential Equations, 1(4) (2023), 664–675.
  • [6] F. A. Aliev, M. A. Jamalbayov, N. A. Valiyev, and N. S. Hajiyeva, Computer model of pump-well-reservoir system based on the new concept of imitational modeling of dynamic systems, International Applied Mechanics, (2023), 352–362.
  • [7] W. H. Cao, S. U. Rehman, M. I. Asjad, M. Inc, Numerical study of bioconvection and cattaneo-christov heat flux model in mhd maxwell nanofluid flow over a variable thickness elastic surface, Applied and Computational Mathematics, 23(2) (2024), 182–200.
  • [8] E. C. Edelman, J. Burghardt, and B. J. McPherson, Experimental investigation of time-dependent deformation of fluid disposal reservoir caprocks, Paper presented at the 52nd U.S. Rock Mechanics/Geomechanics Symposium, Seattle, Washington, June, 2018.
  • [9] F. Farhat, S. Xie, J. F. Shao, H. Pourpak, and K. Su, Study of plastic and creep deformation of shale rocks with a micro-mechanics based approach, American Rock Mechanics Association, 53rd U.S. Rock Mechanics/Geomechanics Symposium, June 23-26, 2019.
  • [10] A. T. Gorbunov, Study of the process of steady-state fluid filtration when the elastic limit of rocks is reached, Collection of scientific works/VNII, Research in the field of oil field development and reservoir hydrodynamics, 57 (1976), 94–103.
  • [11] A. M. Guliev and B. Z. Kazymov, Deformation of rocks and its influence on their reservoir properties and on the filtration processes and development of oil and gas fields, Elm, Baku, 2009.
  • [12] A. Ibraguimov, E. Zakirov, I. Indrupskiy, D. Anikeev, Fundamentals in peaceman model for well-block radius for non-linear flows near well, Applied and Computational Mathematics, 23(1) (2024), 53–69.
  • [13] M. Jamalbayov, T. Jamalbayli, N. Hajiyeva, J. Allahverdi, F. A. Aliev, Algorithm for Determining the Permeability and Compaction Properties of a Gas Condensate Reservoir based on a Binary Model, Journal of Applied and Computational Mechanics, 8(3) (2022), 1014–1022.
  • [14] M. A. Jamalbayov, T. M. Jamalbayli, N. S. Hajiyeva, A. Jafarov, and F. A. Aliev, Algorithm for determining the permeability and compaction properties of a gas condensate reservoir based on a binary model, J. Appl. Comput. Mech., 8(3) (2022) 1014–1022.
  • [15] M. A. Jamalbayov and N. A. Veliyev, The technique of early determination of reservoir drive of gas condensate and velotail oil deposits on the basis of new diagnosis indicators, TWMS J. Pure Appl. Math., 8(2) (2017), 236–250.
  • [16] M. Jamalbayov, I. Hasanov, N. Valiyev, and K. Ibrahimov, Mathematical modeling of the depletion of a compacting gas-condensate reservoir with creeping effects, Proceedings of the 7th International Conference on Control and Optimization with Industrial Applications, II (2020), 194–196.
  • [17] S. Liu, Z. Luan, S. I. Kabanikhin, S. V. Strijhak, Y. Zhang, Solving a type of nonlinear Schrodinger equations using a physically informed neural network and tuning the adaptive activation function, TWMS Journal of Pure and Applied Mathematics, 15(2) (2024), 203–227.
  • [18] F. G. Maksudov and F. A. Aliev, On a problem for a nonlinear hyperbolic equation of higher order with dissipation on the boundary of the domain, Soviet Math. Dokl., 44 (1992), 771–774.
  • [19] Y. M. Molokovich, N. N. Neprimerov, V. I. Pikuza, and A. V. Shtanin, Relaxation filtering, KSU Publishing House, 1980.
  • [20] O. M. Salih, M. Turkyilmazoglu, M. A. Al-Jawary, Reliable computational methods for solving Jeffery-Hamel flow problem based on polynomial function spaces, Applied and Computational Mathematics, 23(1) (2024), 70–82.
  • [21] B. A. Suleimanov and E. M. Abbasov, Predicting of water breakthrough time into the well on pressure build-up curves, Applied and Computational Mathematics, 23(2) (2024), 219–227.
  • [22] H. Y. Xu, A. Aljohani, Y. H. Xu, H. Li, and J. A. Shali, Results on solutions for several systems of the first order nonlinear PDEs and PDDEs in C2, TWMS Journal of Pure and Applied Mathematics, 15(2) (2024), 228–245.
  • [23] Y. P. Zheltov, Rock deformation, Nedra, Moscow, 1966.
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