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Ditemukan 3 dokumen yang sesuai dengan query
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Abdul Basyir
Abstrak :
Tujuan dari penelitian ini adalah untuk menentukan potensi shale oil di Formasi Anggota Banuwati Shale, Cekungan Asri, dengan melihat parameter Total Organic Carbon (TOC), Maturity, dan Brittleness Index. TOC dimodelkan dengan melakukan crossplot antara TOC measured dengan log gamma ray, log density, log neutron porosity, dan log P wave (multi linier regresi). Brittleness index dimodelkan dengan mengkombinasikan log Young’s modulus dan log Poisson’s ratio, serta dibandingkan dengan brittleness index yang dimodelkan dari beberapa data x ray diffraction. Maturity dijadikan sebagai salah satu parameter untuk menentukan kategori TOC, oil atau gas. Shale yang memiliki TOC > 1 wt.%, memiliki thickness > 50 ft, dan brittle merupakan zona potensi shale oil. Shale di Formasi Anggota Banuwati Shale didominasi oleh tipe kerogen I, lingkungan pengendapan lacustrine, dengan early mature di kedalaman 8132 ft (Delima-1). Berdasarkan inversi simultan, diketahui bahwa persebaran shale yang berpotensi menjadi shale oil berada di arah Timur Laut dari sumur Delima-1, pada depth > 9500 ft, dengan ketebalan 200 – 300 ft.
The purpose of this research is to determine the potency of shale oil in Member Banuwati Shale Formations, Asri Basin, with use Total Organic Carbon (TOC), Maturity, and Brittleness Index parameter. TOC is modeled by multiple linear regresion method. This method is crossplot between TOC measured with gamma ray log, density log, neutron porosity log, and P wave log. Brittleness index is modeled by combining Young's modulus log and Poisson's ratio log, where this model called brittlenes index geomechanic model. After that this model compared with brittleness index model from mineralogy. Maturity is one of the parameters used to determine category of TOC, oil or gas. Shale which has TOC more than 1 wt.%, has a thickness more than 50 ft, and has brittle is potential to be shale oil. Shale in Member Banuwati Shale Formation is dominated by kerogen type I, lacustrine depositional environment, with early mature in depth 8132 ft (Delima-1). Based on simultaneous inversion, known that distribution of shale which is potentially into lying in the northeast of Delima-1 well, in depth > 9500 ft, with thickness 200 – 300 ft.
2015
T44405
UI - Tesis Membership  Universitas Indonesia Library
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Sundus Ghaida Noor Azizah
Abstrak :

Daerah penelitian merupakan suatu struktur penghasil hidrokarbon konvensional yang terletak di bagian tenggara Cekungan Sumatra Selatan dan di bagian baratlaut tinggian lampung. Penelitian ini bertujuan untuk mengevaluasi  potensi  shale hidrokarbon  pada daerah tersebut. Evaluasi shale hidrokarbon dilakukan pada tiga sumur, sumur X-1, X-2 dan X-3 dengan target pada formasi Talang Akar Atas. Evaluasi berdasarkan analisis geokimia, petrofisika, dan interpretasi seismik. Analisis geokimia menghasilkan bahwa shale formasi target memiliki material organik yang cukup berpotensi dan juga matang. Hidrokarbon yang dihasilkan berupa minyak. Analisis petrofisika dilakukan untuk mendapatkan model TOC dan brittleness index. Pemodelan TOC dilakukan dengan 4 metode yaitu Schmoker, Passey, Multi Regresi Linier, dan Neural Network. Dari keempat metode tersebut,Neural Network yang menghasilkan data paling baik. Korelasi yang didapat pada sumur X-1 adalah 0.96 dan 0.84 untuk sumur X-3. Berdasarkan nilai brittleness index, Sumur X-1 memiliki shale yang bersifat less ductile – less brittle sementara sumur X-2 dan X-3 memiliki shale yang bersifat less brittle. Sumur X-1 memiliki potensi shale hidrokarbon berada pada kedalaman 2054 – 2081 m dengan ketebalan 27 m dengan rentang nilai brittleness 0.3 – 0.34 dan rentang TOC 2.0 – 4.4 wt% serta impedansi akustik 7200-9900 gr/cc*m/s. Sumur X-3 memiliki potensi shale hidrokarbon berada pada kedalaman 1461-1487 dengan ketebalan 26 m dengan rentang TOC 1.8 – 3.94 wt% dan brittleness index berkisar 0.35-0.44, dan impedansi akustik 9197 - 10964 gr/cc*m/s. Shale yang berpotensi menjadi shale hidrokarbon tersebar pada daerah sekitar sumur X-2 dengan nilai brittleness sekitar 0.38-0.4 yang termasuk sifat less brittle dan TOC dengan nilai sekitar 3 wt%.


The research area is a structure that produce conventional hydrocarbon located in the southeastern part of the South Sumatra Basin and in the northwest part of the Lampung highlands. This study aims to evaluate the shale hydrocarbon potential in the area. Evaluation of shale hydrocarbons was carried out on three wells, X-1, X-2 and X-3 wells with target in the Upper Talang Akar formation. Evaluation based on geochemical analysis, petrophysics, and seismic interpretation. Geochemical analysis produces that the target shale formation has quite potential and mature organic material. The hydrocarbons produced are oil. Petrophysical analysis is performed to obtain the TOC model and brittleness index. TOC modeling is done with 4 methods, namely Schmoker, Passey, Multi Linear Regression, and Neural Network. Based on  the four methods, the Neural Network produces the best data. The correlation obtained in X-1 wells is 0.96 and 0.84 for X-3 wells. Based on the brittleness index value, X-1 wel has a shale that is less ductile - less brittle while X-2 and X-3 wells have less brittle shale. The X-1 well has a hydrocarbon shale potential at a depth of 2054 - 2081 m with a thickness of 27 m with a range of 0.3 - 0.34 brittleness and TOC 2.0 - 4.4 wt% and acoustic impedance 7200-9900 gr / cc * m / s. The X-3 well has shale hydrocarbon potential at a depth of 1461-1487 with a thickness of 26 m with a range of TOC 1.8 - 3.94 wt% and brittleness index ranging from 0.35-0.44, and acoustic impedance 9197 - 10964 gr / cc * m / s. The distribution of shale which has the potential to become shale hydrocarbons is around the X-2 well with the value of brittleness is around 0.38-0.4 (less brittle) and the value of TOC is around  3 wt%.  

2019
T55279
UI - Tesis Membership  Universitas Indonesia Library
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Junita T. Musu
Abstrak :
A detailed combined geological and geophysical study in North Sumatra basin has shown that prospective formations for shale play containing gas sweet spots are found to be shales from Bampo, Belumai, and Baong Formations. Bampo Formations Exhibits low shale gas potential with very low to medium in organic material contents, maturity index of immature to mature, and moderate brittleness. Rocks within the formation tent to be reactive to highly reactive to water, with a moderate degree of swelling capacity. Porosity varies within 5.8-7.4% with permeability raging from 0.37 to 3.2 mD. Sweet spots in the formation found around Basilam-l and Securai-l wells occupy about 21% of the formation. On the other hand, Belumai Formation shows moderate to good shale gas potential, with low to high organic material contents, immature to mature levels of maturity, and moderately brittle to brittle. Sweet spots areas in the formation fpund around the two wells are about 29% of the formation. For Baong Formation, analysis reveals moderate to good shale gas potential, with low to medium contents of organic material, immature to mature in maturity index, moderately brittle to brittle in brittleness, and tendency of being reactive to highly reactive to water but with low degree of swelling capacity. Sweet spots in the formation found around two wells occupies are roughly 11% of the total formation volume in the area. Basin modeling leading to gas resources estimation for Baong, Belumai, and Bampo Formations has led to estimated volumes of 6, 379 TCF, 16, 994 TCF, and 25,024 TCF, respectively, with a total amount of 48, 397 TCF. The resources figures are speculative in nature and do not incorporate any certainty and efficiency factors.
Jakarta: LEMIGAS Research and Development Centre for Oil and Gas Technology Afilliation and Publication Division, 2015
620 SCI 38: 2 (2015)
Artikel Jurnal  Universitas Indonesia Library