The Selection of Optimal Gas Production Rate using Dynamic Reservoir Simulation in Field X

Rahmad Laksamana Pratama, Gerry Sasanti Nirmala, Edi Untoro, Jatmianto Jayeng Sugiantoro, Muhammad Ghazian R.A

Abstract


Indonesian government has targeted a gas production rate of 12 BSCFD by 2030 to balance the energy demands and the carbon emission reduction. To achieve this goal, a comprehensive evaluation of a gas field will be carried out regarding Recovery Factor, Stable Production Period (Plateau Time), Total Production Period, and Profits using simulation programme. Dynamic Reservoir Simulation is an integrated field development simulation that combines physics, mathematics, reservoir engineering, and computer programming to analyze and predict the wells performance or how fluid flows through reservoir rocks to the surface over time under various operating conditions. There are stages in the simulation include Reservoir Model Creation, Initialization, History Matching, and Production Performance Forecasting. This research is a continuation of static reservoir modeling research done by LEMIGAS, which started by reinitializing the model and ended by forecasting the production performance of field X using several gas production flowrate scenarios to find out the optimal gas production flowrate for Field X in ten years period. The simulation result showed that the best gas production flowrate for a ten-year period is 3 mmscfd. It gives 78,505% recovery factors, with cumulative profit of $40,915,872 USD over a plateau period of 6.6 years.

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References


Directorate General of Oil and Gas. (2022). The Important Role of Natural Gas in the Energy Transition. Jurnal Migas, 9, 22–23.

Sankaran, S., Matringe, S., Sidahmed, M., Saputelli, L., Wen, X.-H., Popa, A., & Dursun, S. (2020). Data Analytics in Reservoir Engineering. Society of Petroleum Engineers. https://doi.org/10.2118/9781613998205

Tan, V., Aziz, K. Ab., & Razavi, S. H. (2022). Data Analytics for Effective Project Management in the Oil and Gas Industry. In A. Asmawi (Ed.), Proceedings of the International Conference on Technology and Innovation Management (ICTIM 2022) (Vol. 228, pp. 233–242). Atlantis Press International BV. https://doi.org/10.2991/978-94-6463-080-0_20

Zargar, Z., & Thakur, G. C. (2022). Importance of reservoir simulation and early reservoir management for successful field development—Case study. Energy Reports, 8, 5038–5052. https://doi.org/10.1016/j.egyr.2022.03.189

Ertekin, T., Abou-Kassem, J. H., & King, G. R. (2001). Basic Applied Reservoir Simulation (Vol. 7). Society of Petroleum Engineers.

Lie, K.-A. (2019). An Introduction to Reservoir Simulation Using MATLAB/GNU Octave: User Guide for the MATLAB Reservoir Simulation Toolbox (MRST). Cambridge University Press. https://doi.org/10.1017/9781108591416

Ahmed, T. H. (2019). Reservoir engineering handbook (Fifth edition). Gulf Professional Publishing

Fanchi, John R. (2006) Principles of Applied Reservoir Simulation (Third Edition), Gulf Professional Publishing, Pages 255-281, ISBN 9780750679336, https://doi.org/10.1016/B978-075067933-6/50016-7.

Chen, Z., 2007. Reservoir Simulation: Mathematical Techniques in Oil Recovery. Philadelphia: Society for Industrial and Applied Mathematics.

PTK 037/SKKMA0000/2017/S0 Year 2017 Revision 01 concerning Plan of Development (POD)

PTK 037/SKKMA0000/2021/S9 Year 2021 Revision 03 concerning Plan of Development (POD)

Ardiyansyah , M. Triany, N. Setiati, R. Koesmawardan, WT. (2021). Volumetric calculations for estimating reserves of oil and gas energy resources. International Conference on Research Collaboration of Environmental Science. IOP Conf. Series: Earth and Environmental Science 802 (2021) 012047 IOP Publishing doi:10.1088/1755-1315/802/1/012047.

Pamungkas, J. (2011). Pemodelan dan Aplikasi Simulasi Reservoir (1st ed.). Program Studi Teknik Perminyakan UPN “Veteran” Yogyakarta.

The Amendments to Presidential Regulation Number 40 of 2016 concerning Determination of Natural Gas Prices, 2020




DOI: https://doi.org/10.31315/jpgt.v5i1.11084

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