Date Log
Screening Polimer Untuk Eor (Enhanced Oil Recovery) Di Lapangan “X” Minyak Cekungan Sumatera Tengah
Corresponding Author(s) : Dwi Septiana
Journal of Bioprocess, Chemical and Environmental Engineering Science,
Vol 3 No 1 (2022): Journal of Bioprocess, Chemical and Environmental Engineering
Abstract
Oil is the energy source that people demand and use the most right now. Recent years have seen a lot of interest in polymer flooding as a cutting-edge chemical-based enhanced oil recovery (EOR) solution. Field X Minyak Cekungan Sumatera is acceptable for chemical EOR (Polymer) testing with a success range of up to 70%. The polymer solution will follow the channel that the water has created, and because of its high viscosity, it tends to "block" this area of the reservoir, allowing previously immobilized oil to start flowing. This can improve sweep efficiency.
In this study, four polymers will undertake screening tests on the basis of compatibility, concentration, viscosity vs. shear rate, filtration, screen factor, and thermal stability. The best results is polymer 2 after polymer screening included passing the compatibility test, producing the best viscosity compared to the other three polymers at the same concentration, FR 1.2, having the best screen factor value compared to the other three polymers, and passing the thermal stability test.
Keywords
Download Citation
Endnote/Zotero/Mendeley (RIS)BibTeX
References
Abadli, F. (2012). Simulation Study of Enhanced Oil Recovery by ASP (Alkaline, Surfactant and Polymer) Flooding for Norne Field C-segment. NORWEGIAN UNIVERSITY OF SCIENCE AND TECHNOLOGY.
Abdurrahman, M. (2016). Peluang dan Tantangan Penerapan Nanoteknologi Melalui Metode Enhanced Oil Recovery (EOR) di Lapangan Minyak Indonesia. Seminar Nasional Kebumian XI, Yogyakarta, 3 – 4 November 2016 Fakultas Teknologi Mineral, UPN ”Veteran” Yogyakarta .
Abdurrahman, M., Permadi, A. K., Abdulfatah, M. Y., Efriza, I., Prabowo, D. H., Hidayat, F., & Rita, N. (2021). A Comprehensive Study of CO 2 Enhanced Oil Recovery in the Langgak Field (W. Bae & R. Junin, Ed.; 1 ed.). Universitas Islam Riau (UIR) Press.
Alexis, D., Varadarajan, D., Kim, H., Winslow, G., & Malik, T. (2016). Evaluation of Innovative Associative Polymers for Low Concentration Polymer Flooding. SPE-
Al-Shakry, B., Shiran, B. S., Skauge, T., & Skauge, A. (2018). Enhanced Oil Recovery by Polymer Flooding : Optimizing Polymer Injectivity. The SPE Kingdom of Saudi Arabia Annual Technical Symposium and Exhibition, SPE-192437-MS.
Delamaide, E. (2014). Polymer Flooding of Heavy Oil-From Screening to Full-Field Extension. SPE-171105-MS .
Eni, H., Sutriah, K., & Muljani, S. (2017). Surfaktan Berbasis Minyak Sawit untuk Aplikasi EOR pada Lapangan Minyak Intermediet. Lemigas, 51(1), 2–7.
Erfando, T., Siregar, G., Alli, Y. F., & Wangge, Y. B. D. (2022). Hydrolyzed Polyacrylamide Screening for EOR in an Indonesia Mature Oil Field. Trends in Sciences, 19(7). https://doi.org/10.48048/TIS.2022.3461
Gerald Reza, C., Setiati, R., & Husla, R. (2019). Evaluasi Efektivitas Mekanisme EOR Pada Injeksi Polimer. Seminar Nasional Cendekiawan Ke, 5.
Handayani, P. A. (2010). Polimerisasi Akrilamid dengan Metode Mixed-Solvent Precipitation dalam Pelarut Etanol-Air. 8.
Juárez-Morejón, J. L., Bertin, H., Omari, A., Hamon, G., Cottin, C., Morel, D., Romero, C., & Bourdarot, G. (2019). A new approach to polymer flooding: Effects of early polymer injection and wettability on final oil recovery. SPE Journal, 24(1), 129–139. https://doi.org/10.2118/190817-PA
Juita, R., Arnelli, & Yusniati. (2016). Telaah Surfaktan untuk Proses Enhanced Oil Recovery(EOR) dan Profil Adsorpsi Surfaktan A-Olefin Sulfonates (AOS). Jurnal Kimia Sains Dan Aplikasi , 19(1), 27–31.
Kirk, G.W., and Othmer, D.F. 1978. Encyclopedia of chemical Technology. Third Edition. vol 1. pp 298 – 311. 312 – 330. New York: John Wiley and Sons.
Lee, S., Kim, D. H., Huh, C., & Pope, G. A. (2009, Oktober 7). Development of a Comprehensive Rheological Property Database for EOR Polymers. Proceedings - SPE Annual Technical Conference and Exhibition,.
Liu, Y., Hou, J., Liu, L., Zhou, K., Zhang, Y., Dai, T., Guo, L., & Cao, W. (2018). An inversion method of relative permeability curves in polymer flooding considering physical properties of polymer. SPE Journal, 23(5), 1929–1943. https://doi.org/10.2118/189980-pa
Maurich, D. (2019). Experimental Study of the Effect of Continuous Surfactant Injection Alternating Cyclic Huff & Puff Stimulation on Oil Efficiency Recovery in A 3D Reservoir Physical Model. Journal of Applied Science, I(2), 2656–7288.
OPEC. (2013). World Oil Outlook
Pilla, A. (2018). Importance Of Polimerization In EOR. International Journal of Scientific Development and Research (IJSDR, 3(2). www.ijsdr.org
Putra, B. P., & Kiono, B. F. T. (2021). Mengenal Enhanced Oil Recovery (EOR) Sebagai Solusi Meningkatkan Produksi Minyak Indonesia. Jurnal Energi Baru Dan Terbarukan, 2(2), 84–100. https://doi.org/10.14710/jebt.2021.11152
Saldivar-Guerra, Enrique., & Vivaldo-Lima, Eduardo. (2013). Handbook of Polymer Synthesis, Characterization, and Processing. Wiley.
Taber, J. J., Martin, F. D., & Seright, R. S. (1997). EOR Screening Criteria Revisitedd Part 1: Introduction to Screening Criteria and Enhanced Recovery Field Projects. SPE Reservoir Engineering, 189.
Vieira, H. V. P., Oliveira, P. F., Costa, J. A., de Oliveira, L. A., Mota, L. S., & Mansur, C. R. E. (2021). Thermal stability of polymers based on acrylamide and 2 - acrylamido – 2 - methylpropane sulfonic acid in different temperature and salinity conditions. Journal of Applied Polymer Science, https : / /doi.org / 10.1002 / app.51301.https://doi.org/10.1002/app.51301