Journal of Geological Sciences and Applied Geology

The EPURA field is one of the oil and gas producing fields in the South Sumatra Basin, where well completion has been carried out in the Talang Akar Formation, and the production test results are interpreted to mean that in wells EP-13, EP-14, EP-15, EP-16, EP-17 and EP-23 contain several reservoir zones that have the potential to contain hydrocarbons. This research with facies interpretation analysis uses data from six wells (wireline, mudlog, RCAL and lithology data), so it is hoped that it can provide more detailed information for the development of an oil and gas field. The analysis carried out is in the form of facies analysis, depositional environment, electrofacies and facies correlation. From the research results, it was found that the Talang Akar Formation has depositional facies in the form of a fluvial, which in this study is the Lower Talang Akar Formation with depositional facies in the form of channel, Crevasse Splay, point bar and flood plain. Based on the analysis results, the Talang Akar Formation is divided into 3 reservoir zones, namely Zone EP-1, EP-2, and EP-3. After going through all stages of petrophysical analysis, it was found that zones with high hydrocarbon potential were found in wells EP-13, EP-23 and EP-16. The wells with low hydrocarbon potential are EP-14, EP-15 and EP-17 wells. The zone of highest hydrocarbon potential in prospect wells is in the EP-1 zone with a Crevasse Splay facies association and has thick sandstone lithology characteristics with medium to fine grain size.

Koesoemadinata, R. (1978). Geology of Oil and Gas. Bandung: Bandung Institute of Technology.

Koesoemadinata. (1980). Geology of Oil and Gas. Bandung: ITB

Walker, R., & James, N. (1992). Facies Models. Canada: Geological Association of Canada.

Davis, P. R. (1984). Tertiary Structural Evolution and Related Hydrocarbon Occurrences, North Sumatra Basin. 13th Annual Convention Proceedings (Volume 1), Pages 19-49.

Blake. (1989). The Geological Regional and Tectonic of South Sumatra Basin. Proceedings 11th Annual Convention IPA. Asquith and Krygowski. (2002). AAPG Methods in Exploration, No. 16, Chapter 8: Petrophysical Techniques, pages 137-149.

Scjon, J. (2015). Physical Properties of Rocks: Fundamentals and Principles of Petrophysics. Montanuniversität Leoben: Elsevier.

De Coster, G. L. (1974). The Geology of the Central and South Sumatra (pp. 77-110). Indonesian Petroleum Association 3rd Annual Convention.

A.J. Barber, M.J. Crow, and J.S. Milsom. (2005). Sumatra: Geology, Resources and Tectonic Evolution. London: Geological Society London.

Heidrick, T. L. & Aulia, K., 1993. A Structural and Tectonic Model of the Coastal Plains Block, Central Sumatra Basin, Indonesia, Indonesian Petroleum Association, pp. 285-317.

Bishop, M.G., (2001). The Lahat-Talang Akar-Cenozoic Total Petroleum System. South Sumatra Basin Province, Indonesia.

Pulunggono, A. & Cameron, N. R., 1984. Sumatran Microplates, Their Characteristics and Their Role in the Evolution of the Central and South Sumatra Basins, Indonesian Petroleum Association.

Kendall, C., & Pomar, L. (2003). System tract bounding surfaces, lithofacies, geometric hierarchies and stacking patterns: Keys to shallow water-carbonate interpretation. AAPG Bulletin.