Evaluasi dan Optamasi Electrical Submersible Pump pada Sumur PR-07 LapangaN AB
DOI:
https://doi.org/10.54423/jtk.v6i2.115Keywords:
ESP IPR Vogel, Qmax Optimun Rate, Production Optimazation, Water CutAbstract
ESP as an artificial lift system plays an important role in optimizing oil production; therefore, an evaluation and optimization were conducted on Well PR-07, AB Field to assess pump performance and determine the optimum production rate. The analysis was carried out using the Vogel method on the Inflow Performance Relationship (IPR) curve, resulting in a maximum production rate (Qmax) of 2,441.79 BFPD and an optimum production rate (Qo) of 1,953.43 BFPD. Current well conditions show a water cut of 82%, resulting in an oil flow rate of only about 202 BOPD. The pump applied is 134-400 CENTURION FLEX 17-5SXD with 52 stages, which is still suitable in terms of capacity. However, the high water content is the main limiting factor for oil production, so optimization efforts are focused on determining the optimum flow rate, controlling water cut, and monitoring ESP performance to maintain operational reliability and improve production efficiency.
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References
Al-Hejjaj, M. A., Sadeq, D. J., & Al-Fatlawi, O. (2023). A review of the electrical submersible pump development chronology. Iraqi Journal of Chemical and Petroleum Engineering, 24(2), 123–135.
Alvarado, M., & Ibarra, J. (2023). Modern Approaches In ESP Troubleshooting And Diagnostics. Amsterdam, Belanda: Elsevier.
Brown, K. E. (1977). The Technology Of Artificial Lift Methods (Vol. 1). Tulsa, OK: Petroleum Publishing Co.
Brown, K. E. (2022). Production Optimization Using Artificial Lift Systems. Houston, TX: Gulf Publishing.
Brown, K. E. (n.d.). Artificial lift methods I. Tulsa, OK: The University of Tulsa, Petroleum Publishing Co.
Suryadi, D.,(2022). Analisis Perancangan Design Submersible Pump Kawasan Timur Lapangan PS pada sumur G (Skripsi). Universitas Islam Riau, Pekanbaru, Indonesia. Diambil dari https://repository.uir.ac.id/14611/1/143210733.pdf
Guo, B., Liu, X., & Tan, X. (2017). Petroleum production engineering (2nd ed.). Oxford, Inggris: Gulf Professional Publishing.
Guo, B., Lyons, W., & Ghalambor, A. (2007). Petroleum Production Engineering. Burlington, MA: Elsevier Science & Technology Books.
Julianto, Dedek (2020) Evaluasi dan Optimisasi Sumur Electrical Submersible Pump Yang Memiliki Pi Tinggi Dengan Menggunakan Variable Speed Drive Dengan Frekuensi di Atas 60hz Pada Sumur "x" Lapangan "y". Other thesis, Universitas Islam Riau.
Lake, L. W., & Clegg, J. D. (2007). Production Operations Engineering (Vol. IV). Richardson, TX: Society Of Petroleum Engineers. doi:10.2118/9781555631185
Lembang, A. D. M. R. (2017). Electrical submersible pump (ESP). n.p. [Jika ini skripsi, tambahkan: (Skripsi tidak dipublikasikan). Nama Universitas, Kota, Negara].
Nguyen, T. (2021). Artificial lift methods: Design, Practices, And Applications. Cham, Swiss: Springer Nature.
PT. Pertamina Hulu Kalimantan Timur. (2025). Data electrical submersible pump. Balikpapan, Indonesia: Penulis.
Salah, A. A., & Nasr, G. G. (2020). Investigation Of ESP Performance In Oil Wells With Gas Interference. Journal of Petroleum Science and Engineering, 192, 107271.
Verde, W. M., dkk. (2024). A Critical Analysis And Improvements Of Empirical Models For ESP Performance/Operation. Journal Of Petroleum Science And Engineering, 233, 112096
