Penentuan Kurva Tekanan Kapiler Menggunakan Metode  Buckley Laverett: Pendekatan Pengolahan Data untuk Aplikasi Simulasi Reservoir

Lia Yunita

Authors

Lia Yunita Universitas Proklamasi 45 Yogyakarta

Keywords:

Capillary Pressure, Buckley Laverett, Simulation

Abstract

Tekanan kapiler memegang peran penting dalam menentukan distribusi dan mobilitas fluida di dalam pori batuan. Hubungan antara tekanan kapiler, kejenuhan fluida, serta permeabilitas relatif menjadi dasar dalam memahami dinamika perpindahan fluida pada media berpori. Tujuan penelitian ini mengembangkan pendekatan pengolahan data berbasis model matematis Buckley Laverett untuk mentransformasikan data saturasi dan tekanan menjadi kurva tekanan kapiler yang dapat digunakan sebagai input dalam simulasi numerik reservoir. Metode yang digunakan pengolahan data transformasi data special core analysis dari laboratorium menjadi model tekanan kapiler menggunakan pendekatan matematis Buckley Laverett yang dapat diaplikasikan langsung pada simulasi reservoir. Hasil analisis tekanan kapiler pada dua rock region membuktikan bahwa tekanan kapiler berkurang secara eksponensial seiring meningkatnya saturasi air, dengan nilai yang lebih rendah pada batuan berporositas dan permeabilitas tinggi. Melalui pendekatan ini, diperoleh kurva tekanan kapiler yang mampu menggambarkan hubungan fisik antara gaya antarmuka fluida dengan sifat batuan, serta dapat digunakan sebagai input valid dalam simulasi reservoir.

References

Mohammad, R. S., Tareen, M. Y. K., Mengel, A., Shah, S. A. R., & Iqbal, J. 2020. Simulation study of relative permeability and the dynamic capillarity of waterflooding in tight oil reservoirs. Journal of Petroleum Exploration and Production Technology, 10(5), 1891-1896.

Jennings, J. B. 1987. Capillary pressure techniques: application to exploration and development geology. AAPG Bulletin, 71(10), 1196-1209.

Adegbule, A., & Kibbey, T. 2020. Exploring the impact of long-term evaporation on the relationship between capillary pressure and water saturation in unsaturated porous media. Journal of Hydrology, 582, 124557. https://doi.org/10.1016/j.jhydrol.2020.124557.

Aljaberi, F., Alhosani, A., Belhaj, H., & Blunt, M. 2023. Investigating Relationship Between Capillary Pressure, Phase Saturation, and Interfacial Area in a Three-Phase Flow Water-Wet System. Day 1 Mon, October 02, 2023. https://doi.org/10.2118/215998-ms.

Abidoye, L., & Das, D. 2020. Impacts of dynamic capillary pressure effects in supercritical CO2-Water flow: Experiments and numerical simulations. Advances in Water Resources, 136, 103504. https://doi.org/10.1016/j.advwatres.2020.103504.

Li, Y., Luo, H., Li, H., Liu, X., Tan, Y., Chen, S., & Cai, J. 2020. A brief review of dynamic capillarity effect and its characteristics in low permeability and tight reservoirs. Journal of Petroleum Science and Engineering. https://doi.org/10.1016/J.PETROL.2020.106959.

Shi, S., Belhaj, H., & Bera, A. (2018). Capillary pressure and relative permeability correlations for transition zones of carbonate reservoirs. Journal of Petroleum Exploration and Production Technology, 8(3), 767-784.

Lu, X., Kharaghani, A., Adloo, H., & Tsotsas, E. 2020. The Brooks and Corey capillary pressure model revisited from pore network simulations of capillarity-controlled invasion percolation process. Processes, 8(10), 1318.

Leverett M.C. 1941. Capillary behavior in porous solids. Petroleum Transactions AIME, Volume 27 Number 3:152–169

Zankoor, A., Khishvand, M., & Piri, M. 2022. In‐Situ Capillary Pressure and Its Interrelationships With Flow Characteristics During Steady‐State Three‐Phase Flow in Water‐Wet Berea Sandstone. Water Resources Research, 58(12), e2022WR032976.

Yunita ,L., 2024. enentuan Rock Region berdasarkan Porositas dan Permebilitas Batuan dalam Simulasi Reservoir Migas. Prosiding Nasional Rekayasa Teknologi Industri dan Informasi XIX Tahun 2024 (ReTII)November 2024, pp. 194~198

Abdollahian, A., Tadayoni, M., & Junin, R. B. 2019. A new approach to reduce uncertainty in reservoir characterization using saturation height modeling, Mesaverde tight gas sandstones, western US basins. Journal of Petroleum Exploration and Production Technology, 9(3), 1953-1961.

Penentuan Kurva Tekanan Kapiler Menggunakan Metode Buckley Laverett: Pendekatan Pengolahan Data untuk Aplikasi Simulasi Reservoir

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