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NUMERICAL ANALYSIS OF THE NEAR WELLBORE FLOW MECHANISMS CONTROLLING WELL PRODUCTIVITY

Yıl 2018, Cilt: 8 Sayı: 1, 63 - 74, 30.06.2018
https://doi.org/10.36222/ejt.468477

Öz

This study
presents three-dimensional (3D), thermal mathematical model of the simultaneous
flow of two-phase immiscible fluids that can be used as a practical tool for
the simulation study and analysis of adjacent to wells flow phenomena
controlling productivity. Based on the model, the corresponding near wellbore
3D numerical model is developed subsequently, which can be used for conducting
analysis of time dependent development and dynamics of the oil-water interface (OWI)
around the well producing from a bottom-water reservoir. The specialized
simulation tool for analyzing near-well flow has been applied to simulate the
effects of relative permeability modification (RPM) (or disproportionate
permeability reduction (DPR)), well completion (single or dual – with the
bottom water drainage) and a barrier injected around the well bore on water
coning. This study presents a mechanistic study of gel injection process, the
effect of gel treatment for in-situ permeability modification on two-phase
flow, and posttreatment production forecasts. Model was also applied for
simulating production tests with and without artificial impermeable barrier,
the effect of DWS technology on water coning performance and some combination
of above processes (methods). We propose a generalized version of the LET
correlation for relative permeability approximation which takes into account
gel – reservoir fluid transition zone. We also propose using a new formula for
approximation of Leverett J-function.

Kaynakça

  • [1] Hernandez, J. C. Oil Bypassing by Water Invasion to Wells: Mechanisms and Remediation. A Dissertation for the degree of Doctor of Philosophy in the Department of Petroleum Engineering. Louisiana State University, 2007.
  • [2] Motiff, Ph. D. Long-Term Production Results of Polymer Treatments in Producing Wells in Western Kansas. JPT P. 356 (04.1993).
  • [3] Schneider, F. N., Owens, W. W. Steady-State Measurements of Relative Permeability for Polymer, Oil Systems. SPEJ P. 79 (02.1982).
  • [4] Liang, J. T., Sun, H., Seright, R. S. Why Do Gels Reduce Water Permeability More Than Oil Permeability? SPERE, P. 282. (11.1995).
  • [5] Wojtanowicz, A. K., Shirman, E. I., Kurban, H. Downhole Water Sink (DWS) Completion Enhance Oil Recovery in Reservoirs with Water Coning Problem. SPE 56721, presented at the Annual Technical Conference and Exhibition, Houston, TX, (Oct. 3-6, 1999).
  • [6] Shirman, E. I., Wojtanowicz, A. K. More Oil Using Downhole Water Sink Technology: A Feasibility Study. SPE Prod. & Facilities 15(4), (Nov. 2000).
  • [7] Siddiqi, S. S., Wojtanowicz, A. K. A Study of Water Coning Control in Oil Wells by Injected or Natural Flow Barriers Using Scaled Physical Model and Numerical Simulator. SPE 77415, 2002.
  • [8] Chen, T., Wan, W. Modified Polymer Gels for Creating a Horizontal Barrier to Block Off Water Coning. Presented at the 47th Annual Technical Meeting of the Petroleum Society, Calgary, Alberta, Canada, (June 10-12, 1996).
  • [9] Strickland, R. F. Artificial Barriers may Control Water Coning-1. O&GJ, 61-64 (Oct.7, 1974).
  • [10] Zhumagulov, B. T. , Monakhov V. N. The Fluid Dynamics of Oil Production, Translated & ed. by AgipK CO, Milan: Interservice, P. 307, 2003.
  • [11] Barenblatt, G. I., Patzek, T. W., Silin, D. B. The Mathematical Model of Non-Equilibrium Effects in Water-Oil Displacement. SPE 75169 presented at SPE/DOE Improved Oil Recovery Symposium, Tulsa, Oklahoma, (April 13-17, 2002).
  • [12] Бочаров, О. Б., Телегин, И. Г. Численное исследование гидрофизических процессов при сопряжении различных неизотермических моделей фильтрации двухфазной жидкости. Теплофизика и аэромеханика Т. 12 №4, 657-667 (2005).
  • [13] Zaitoun, A., Kohler, N., Bossie-Codreanu, D., Denys, K. Water Shutoff by Relative Permeability Modifiers: Lessons from Several Field Applications. SPE 56740 presented at the 1999 SPE Annual Technical Conference and Exhibition held in Houston, Texas, (October 3-6, 1999).
  • [14] Lomeland, F., Ebeltoft, E., Hammervold, T. W. A New Versatile Relative Permeability Correlation. Reviewed Proceedings of 2005 International Symposium of SCA, Abu Dhabi, United Arab Emirates, SCA 2005-32 (Nov. 2, 2005).
  • [15] Zaitoun, A., Bertin, H., Lasseux, D. Two-Phase Flow Property Modifications by Polymer Adsorption. SPE 39631 presented at the 1998 SPE/DOE IOR Symposium, Tulsa, OK.
  • [16] Bekbauov, B. E., Kaltayev, A., Nagy, S. Three-Dimensional Thermal Petroleum Filtration Study of Water Coning. Archives of Mining Sciences, Cracow, Poland 55 No 1, 201-215 (2010).
Yıl 2018, Cilt: 8 Sayı: 1, 63 - 74, 30.06.2018
https://doi.org/10.36222/ejt.468477

Öz

Kaynakça

  • [1] Hernandez, J. C. Oil Bypassing by Water Invasion to Wells: Mechanisms and Remediation. A Dissertation for the degree of Doctor of Philosophy in the Department of Petroleum Engineering. Louisiana State University, 2007.
  • [2] Motiff, Ph. D. Long-Term Production Results of Polymer Treatments in Producing Wells in Western Kansas. JPT P. 356 (04.1993).
  • [3] Schneider, F. N., Owens, W. W. Steady-State Measurements of Relative Permeability for Polymer, Oil Systems. SPEJ P. 79 (02.1982).
  • [4] Liang, J. T., Sun, H., Seright, R. S. Why Do Gels Reduce Water Permeability More Than Oil Permeability? SPERE, P. 282. (11.1995).
  • [5] Wojtanowicz, A. K., Shirman, E. I., Kurban, H. Downhole Water Sink (DWS) Completion Enhance Oil Recovery in Reservoirs with Water Coning Problem. SPE 56721, presented at the Annual Technical Conference and Exhibition, Houston, TX, (Oct. 3-6, 1999).
  • [6] Shirman, E. I., Wojtanowicz, A. K. More Oil Using Downhole Water Sink Technology: A Feasibility Study. SPE Prod. & Facilities 15(4), (Nov. 2000).
  • [7] Siddiqi, S. S., Wojtanowicz, A. K. A Study of Water Coning Control in Oil Wells by Injected or Natural Flow Barriers Using Scaled Physical Model and Numerical Simulator. SPE 77415, 2002.
  • [8] Chen, T., Wan, W. Modified Polymer Gels for Creating a Horizontal Barrier to Block Off Water Coning. Presented at the 47th Annual Technical Meeting of the Petroleum Society, Calgary, Alberta, Canada, (June 10-12, 1996).
  • [9] Strickland, R. F. Artificial Barriers may Control Water Coning-1. O&GJ, 61-64 (Oct.7, 1974).
  • [10] Zhumagulov, B. T. , Monakhov V. N. The Fluid Dynamics of Oil Production, Translated & ed. by AgipK CO, Milan: Interservice, P. 307, 2003.
  • [11] Barenblatt, G. I., Patzek, T. W., Silin, D. B. The Mathematical Model of Non-Equilibrium Effects in Water-Oil Displacement. SPE 75169 presented at SPE/DOE Improved Oil Recovery Symposium, Tulsa, Oklahoma, (April 13-17, 2002).
  • [12] Бочаров, О. Б., Телегин, И. Г. Численное исследование гидрофизических процессов при сопряжении различных неизотермических моделей фильтрации двухфазной жидкости. Теплофизика и аэромеханика Т. 12 №4, 657-667 (2005).
  • [13] Zaitoun, A., Kohler, N., Bossie-Codreanu, D., Denys, K. Water Shutoff by Relative Permeability Modifiers: Lessons from Several Field Applications. SPE 56740 presented at the 1999 SPE Annual Technical Conference and Exhibition held in Houston, Texas, (October 3-6, 1999).
  • [14] Lomeland, F., Ebeltoft, E., Hammervold, T. W. A New Versatile Relative Permeability Correlation. Reviewed Proceedings of 2005 International Symposium of SCA, Abu Dhabi, United Arab Emirates, SCA 2005-32 (Nov. 2, 2005).
  • [15] Zaitoun, A., Bertin, H., Lasseux, D. Two-Phase Flow Property Modifications by Polymer Adsorption. SPE 39631 presented at the 1998 SPE/DOE IOR Symposium, Tulsa, OK.
  • [16] Bekbauov, B. E., Kaltayev, A., Nagy, S. Three-Dimensional Thermal Petroleum Filtration Study of Water Coning. Archives of Mining Sciences, Cracow, Poland 55 No 1, 201-215 (2010).
Toplam 16 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Bölüm Araştırma Makalesi
Yazarlar

Bakhbergen Bekbauov

Zemfira Imansakıpova Bu kişi benim

Yayımlanma Tarihi 30 Haziran 2018
Yayımlandığı Sayı Yıl 2018 Cilt: 8 Sayı: 1

Kaynak Göster

APA Bekbauov, B., & Imansakıpova, Z. (2018). NUMERICAL ANALYSIS OF THE NEAR WELLBORE FLOW MECHANISMS CONTROLLING WELL PRODUCTIVITY. European Journal of Technique (EJT), 8(1), 63-74. https://doi.org/10.36222/ejt.468477

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