Erosion and its Implication on Hydrocarbon Generation in ‘ARD’ Block, Akimeugah Basin,West Papua
Sugeng Sapto Surjono(1*), Yohanes Ardhito Triyogo Varianto(2), Salahuddin Salahuddin(3)
(1) Geological Engineering Departement, Universitas Gadjah Mada
(2) Geological Engineering Departement, Universitas Gadjah Mada
(3) Geological Engineering Departement, Universitas Gadjah Mada
(*) Corresponding Author
Abstract
Akimeugah Basin in the western part of Aru Trough is included as a Paleozoic Basin which is one of the potential hydrocarbon-producing basins in Eastern Indonesia. Tectonic evolution in Akimeugah Basin during Cambrian to present has produced a very significant erosion that affected the hydrocarbon generation process. ‘ARD’ Block study uses three exploratory well data including well report and 26 lines of 2D seismic data with a total length of 5,812.55 kilometers and the distance between seismic lines ranging from 10 to 15 kilometers. Seismic data is processed with IHS Kingdom software for tectonostratigraphy analysis, while calculation and erosion analysis are performed by combining well data consisting of sonic, vitrinite reflectance and seismic. To get a burial history model and generation & expulsion period, this study utilizes Petromod software. Five phases of the tectonic evolution led to four times of erosional period with a sediment thickness of 290 – 3,370 feet were loss. The erosion of the sedimentary rocks causes the maturation process delayed more than 200 million years. Burial history in the study area with the erosion absence assumption results a hydrocarbon generation starting from around 210 million years ago. Meanwhile, by considering the loss of eroded sedimentary rocks during four tectonic phases, hydrocarbon generation time just occurred 3.1 million years ago.
Keywords
Full Text:
PDFReferences
Al-Hajeri, M.M., Al Saeed, M., Derks, J., Fuchs, T., Hantschel, T., Kauerauf, A., Neumaier, M.,Schenk, O., Swientek, O., Tessen, N. and Welte, D. (2009) Basin and petroleum system modeling. Oilfield Review, 21(2), pp.14-29. Aldha, T., & Ho, K.J. (2008) Tertiary Hydrocarbon Play in Nw Arafura Shelf, Offshore South Papua: Frontier Area in Eastern Indonesia: Proceedings, 32nd Annual Convention & Exhibition Indonesian Petroleum Association, pp. 1-9. Baky, A., Bales, C.D., Davey, R.J., Flett, S.D., & Swire, F. (1990) AAA-1 Well Biostratigraphy & Depositional Environments: PT. Robertson Utama Indonesia, Maxus Aru Inc., (tidak dipublikasikan). Borel, G.D. and Stampfli, G.M. (2002) Geohistory of the North West Shelf: a tool to assess the Palaeozoic and Mesozoic motion of the Australian Plate: Proceeding of The Sedimentary Basin of Western Australia 3, Petroleum Exploration Society of Australia, pp. 119-128. Dembicky, H. (2017) Practical Petroleum Geochemistry for Exploration and Production: Amsterdam, Elsevier, 331p. Dow, W. G. (1977) Kerogen studies and geological interpretations: Journal of Geochemical Exploration 7, pp. 79–99. Gleadow, A.J.W., and Duddy, I.R. (1982) Fission Track Lengths in the Apatite Partial Stability Zoneand the Interpretation of Mixed Ages. In: McLennan, J. M., Rasidi, John S., Holmes, R. L. & Smith, G.C. (Eds.), The geology and petroleum potential of the Western Arafura Sea: The APPEA Journal, 30(1), pp. 91–127. Gleadow, A.J.W., Duddy, I.R., and Lovering, J.F. (1983) Fission track analysis-A new tool for the evaluation of thermal histories and hydrocarbon potential. In: McLennan, J. M., Rasidi, John S., Holmes, R. L. & Smith, G.C. (Eds.), The geology and petroleum potential of the Western Arafura Sea: The APPEA Journal, 30(1), pp. 91–127. Granath, J. W. dan Argakoesoemah, R. M. I. (1989) Variations in Structural Style Along the Eastern Central Range Thrust Belt, Papua: Proceedings, 18th Annual Convention Indonesian Petroleum Association, pp. 79 – 89. Granath, J. W., Dinkelman, M. G., Christ-Stringer, J. C. & Emmet, P.A. (2012) Highlights and Implication of a Deep-Crustal Seismic Reflection Survey in the Arafura Sea Region: Berita Sedimentologi 24, Indonesian Journal of Sedimentary Geology, pp. 48–60. Hall, R. & Smyth, H.R. (2008) Cenozoic arc processes in Indonesia: Identification of the key influences on the stratigraphic record in active volcanic arcs. Special Paper 436: Formation and Applications of the Sedimentary Record in Arc Collision Zones, pp.27–54. Hantschel, T. & Kauerauf, A.I. (2009) Fundamentals of Basin and Petroleum Systems Modeling: Berlin, Springer Science & Business Media, 469 p. Harahap, B. H. (2012) Tektonostratigrafi Papua Bagian Selatan dan Laut Arafura, Indonesia Bagian Timur: Indonesian Journal on Geoscience, 7(3), pp. 167–187. Hilkewich, D.N. (1986) Final Well Report CCC- 1/1A, Geological Operation, AMOCO Indonesia, (tidak dipublikasikan). Kaufman, R. L., Phelps, J. C. and Kveton, K. J. (1997) Petroleum systems of the Papuan Basin, Papua New Guinea: Proceedings of an International Conference on Petroleum Systems of SE Asia and Australasia, Indonesian Petroleum Association, pp. 237–246. Kendrick, R. D. and Hill, K. C. (2001) Hydrocarbon play concepts for the Irian Jaya Fold Belt: Proceedings, 28th Annual Convention Indonesia Petroleum Association, pp. 353–367. Kux, O. (1974) Well Completion Report BBB–1, Phillips Petroleum Company Indonesia, (tidak dipublikasikan). Magara, K. (1978) Compaction and Fluid Migration, Practical Petroleum Geology: Amsterdam, Elsevier, 318 p. McLennan, J. M., Rasidi, John S., Holmes, R. L. & Smith, G.C. (1990) The geology and petroleum potential of the Western Arafura Sea: The APPEA Journal, 30(1), pp. 91–127. Miharwatiman, J. S., Kleibacker, D. W., Baker, J. A., Andria, L., & Elliot, J. (2013) Exploration of the Arafura Basin, Indonesia: Proceedings, 37th Annual Convention & Exhibition Indonesian Petroleum Association, pp. 1-14. PALEXON (1986) Final Report on Biostratigraphic Analysis of CCC-1 Well, PT Fisindo Bumi Utama Incorporating Palexon Geological Consultants a member of the paleoservices group, Jakarta, (tidak dipublikasikan). Panggabean, H. and Hakim, A. S. (1986) Reservoir Rock Potential of The Paleozoic - Mesozoic Sandstones of The Southern Flank of The Central Range, Irian Jaya: Proceedings, 15th Annual Convention Indonesian Petroleum Association, pp. 461–480. Patra Nusa Data (2006) Indonesian Basin Summaries, PT. Patra Nusa Data, pp. XV-1 – XV-10. Peck, J. M. & Soulhol, B. (1986) Pre-Tertiary Tensional Periods and Their Effects on The Petroleum Potential of Eastern Indonesia: Proceedings, 15th Annual Convention Indonesia Petroleum Association, pp. 341–369. Pepper, A.S., and Corvi, P.J. (1995) Simple Kinetic Models of Petroleum Formation, Part III: Simulating an Open System, Petroleum Geology. Pigram, C. J. and Panggabean, H. (1984) Rifting of the Northern Margin of the Australian: Tectonophysics 107, pp. 331–353. Powell, T.G., and Boreham, C.J. (1991) Variation in Pyrolysate Composition of Sediments from the Jurassic Walloon Coal Measures, Eastern Australia as a Function of Thermal Maturation. In: Kaufman, R. L., Phelps, J. C. and Kveton, K. J. (Eds.), Petroleum systems of the Papuan Basin, Papua New Guinea: Proceedings of an International Conference on Petroleum Systems of SE Asia and Australasia, Indonesian Petroleum Association, pp. 237–246. Robinson K.M., Hindimarsh, S. (1990) Geochemical Study of The AAA-1 Well, PT. Corelab Indonesia, Maxus Aru Inc, (tidak dipublikasikan). Robinson K.M. (1986) Geochemical Analysis CCC- 1 Well Offshore Irian Jaya Indonesia, PT. Corelab Indonesia, (tidak dipublikasikan). Scott, J. (1992) Accurate Recognition of Source Rock Character in the Jurassic of the North West Shelf, Western Australia. In: Kaufman, R. L., Phelps, J. C. and Kveton, K. J. (Eds.), Petroleum systems of the Papuan Basin, Papua New Guinea: Proceedings of an International Conference on Petroleum Systems of SE Asia and Australasia, Indonesian Petroleum Association, pp. 237–246. Seubert, B.W. & Fraser, T.H. (1990) FinalWell Report AAA-1, Maxus Aru Inc., (tidak dipublikasikan). Situmorang, Y., Irfree, B., Senjaja, Y. A., & Firmansyah, Y. (2017) Studi Geokimia Batuan Induk Aktif Pra-Tersier Cekungan Akimeugah, Lepas Pantai Papua Selatan: Padjajaran Geoscience Journal 1, pp. 119–126. Tissot, B. P. and Welte, D. H. (1984) Petroleum Formation and Occurrence 2nd Edition: Berlin,Springer-Verlag, 699 p. Vail, P. (1977) Seismic stratigraphy and global changes of sea level, Part 5: Chronostratigraphic significance of seismic reflections, Seismic stratigraphy-applications to hydrocarbon exploration: Mem. Amer. Assoc. Petrol. Geol., (26), pp.99-116. Van Hinte, J. E. (1978) Geohistory Analysis- Application of Micropaleontology in Exploration Geology: American Association of Petroleum Geologists Bulletin, pp. 201-222. Varianto, Y. A. T. (2018) Erosi dan Pengarunya Terhadap Generasi Hidrokarbon pada Block ARD, Cekungan Akimeugah, Papua Barat. Unpublished Master Thesis. Master Program Geological Engineering, Faculty of Engineering, Universitas Gadjah Mada. Wgyrala, B.P. (1989) Integrated Study of an Oil Field in the Southern Po Basin, Nothern Italy, Integrated study of an oil field in the southern Po basin, northern Italy. Dissertation, Universität Köln, Berichte Kernfor-schungsanlage Jülich, no. 2313 Wu, C. (1994) Burial History and Backstripping Analysis: Jurusan Teknik Geologi Laboratorium Geokomputasi ITB.
DOI: https://doi.org/10.22146/jag.53204
Article Metrics
Abstract views : 2735 | views : 5736Refbacks
- There are currently no refbacks.
Copyright (c) 2020 Sugeng Sapto Surjono, Yohanes Ardhito Triyogo Varianto, Salahuddin Salahuddin
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
Journal of Applied Geology Indexed by:
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.