PERHITUNGAN CADANGAN HIDROKARBON FORMASI TALANG AKAR MENGGUNAKAN ANALISIS PETROFISIKA DAN SEISMIK INVERSI AI DENGAN PENDEKATAN MAP ALGEBRA PADA LAPANGAN BISMA, CEKUNGAN SUMATERA SELATAN
DOI:
https://doi.org/10.23960/jge.v4i3.37Keywords:
talang akar formation, hydrocarbons, petrophysical analysis, acoustic impedance inversion, map algebra, Original Oil in Place (OOIP)Abstract
As a potential field in hydrocarbon prospect, Bisma field, the part of south Sumatra basin, can be evaluated in order to mapping the hydrocarbon accumulation and total reserve calculation purpose. Petrophysical analysis is an analytic method to evaluate the formation which sensitive with vertical contrast. Main output of this analysis is the compilation of some property value that useful on reservoir quality justification. Seismic acoustic impedance inversion is a method that can be used to define the distribution of porous zone as a hydrocarbon reservoir. This inversion result is the distribution of prospect area map by using combination of interpretation in AI map, density map and P-wave map. Map algebra is a calculation method that used to map that has the same grid number. By using those three methods, the reserve of hydrocarbon accumulation on Bisma field can be calculated. Petrophysical analysis results the indication of hydrocarbon in target zone is oil on two main layer, S and W3. Meanwhile, seismic inversion interpreting the distribution of porous zone is between 7400 – 9315 m/s*gr/cc in AI value context. Then, the effective porosity, Sw value and isopach are spread laterally using picked horizon and seismic acoustic impedance result as a guide, also, calculating the reserve. Layer S accumulating 21.1 million barrel oil and W3 accumulating 50.2 million barrel oil. This value resulted by aplicating Original Oil in Place (OOIP) equation on property map with map algebra approachment.
References
Berry, J.K. 2004. Bridging GIS and Map Analysis: Identifying and Utilizing Spatial Relationships. ASPRS Annual Conference, p. 1 – 9.
Doust, H. dan Noble, R.A. 2008. Petroleum Systems of Indonesia. Marine and Petroleum Geology Elsevier - Marine and Petroleum Geology, 25, p. 103 - 129.
Ginger, D. dan Fielding, K. 2005. The Petroleum Systems and Future Potential of the South Sumatera Basin. Proceedings Indonesian Petroleum Association 2005, IPA05-G-039, p. 67 – 89.
Harsono, A. 1997. Evaluasi Formasi dan Aplikasi Log: Edisi Revisi-8. Schlumberger Oil Services: Indonesia.
Pulunggono, A., Haryo S. dan Kosuma, C.G. 1992. Proceedings Indonesian Petroleum Association: Pre-Tertiary and Tertiary Fault Systems as a Framework of the South Sumatera Basin; a Study of SAR-Maps. Proceedings Indonesian Petroleum Association 1992, IPA92-11.37, p. 339 – 360.
Simm, R. dan Bacon, M. 2014. Seismic Amplitude: An Interpreter’s Handbook. Cambridge University Press: UK.
Sukmono, S., 2000. Seismik Inversi Untuk Karakterisasi Reservoar. Bandung: Departemen teknik Geofisika Institut Teknologi Bandung.
Triwibowo, B. 2010. Cut-off Porositas, Volume Shale, dan Saturasi Air untuk Perhitungan Netpay Sumur O Lapangan C Cekungan Sumatera Selatan. Jurnal Ilmiah MTG, 3 (2).
Downloads
Published
How to Cite
Issue
Section
Citation Check
License
Authors/Readers/Third Parties can read, print and download, redistribute or republish the article (e.g. display in a repository), translate the article, download for text and data mining purposes, reuse portions or extracts from the article in other works, sell or re-use for commercial purposes, remix, transform, or build upon the material, they must distribute their contributions under the same license as the original Creative Commons Attribution-NonComercial (CC BY-NC).