STATIC RESERVOIR MODELLING AND HYDROCARBON VOLUME ESTIMATION IN BATURAJA FORMATION, BETA AREA, SOUTH SUMATRA BASIN
Beta Area is an area that has the potential to produce gas on the Baturaja Formation, South Sumatra Basin based on the result of tested data on exploration wells. Administratively, Beta Area is located in Ogan Komering Ulu Regency, South Sumatra Province. This area physiographically lies in the T...
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id-itb.:670882022-08-05T14:55:14ZSTATIC RESERVOIR MODELLING AND HYDROCARBON VOLUME ESTIMATION IN BATURAJA FORMATION, BETA AREA, SOUTH SUMATRA BASIN Anggraini Sarumaha, Elvira Geologi, hidrologi & meteorologi Indonesia Final Project Baturaja Formation, South Sumatra Basin, petrophysical analysis, static reservoir modeling, hydrocarbon volume (IGIP). INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/67088 Beta Area is an area that has the potential to produce gas on the Baturaja Formation, South Sumatra Basin based on the result of tested data on exploration wells. Administratively, Beta Area is located in Ogan Komering Ulu Regency, South Sumatra Province. This area physiographically lies in the Tertiary-aged of Sumatra back-arc basin. Geological studies and reservoir modeling are focused at FS0-FS4 sequence interval on Baturaja Formation comprise of limestone. This study aims to comprehend the geological condition, determining reservoir static model, and estimating hydrocarbon volume in the Beta Area. Data used in this study consist of wireline logs, cutting description, biostratigraphy report, and three-dimensional seismic data. Several methods used in this study comprise of well correlation using sequence stratigraphy concept, petrophysical analysis, analysis of facies and depositional environment, isopach determination, creating depth structure, three -dimensional structural model, facies and petrophysical properties models, determination of fluids contact, and hydrocarbon volume estimation. The outcomes from all those methods show an overview of the geological condition and the estimation of its hydrocarbon volume in the Beta Area. The results of the well analysis show that the study area deposited in the transgressive phase comprises of wackestone limestone and shale composing facies association as well as the depositional environment which is restricted platform, open marine, platform sand shoals, and platform margin reef. The prospect areas are divided into three areas and bounded by fault boundary. The volume estimation (IGIP) result shows that the volume of gas in place from Prospect Area A is 6 BSCF, Prospect Area B is 50 BSCF, and Prospect Area C is 86 BSCF text |
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Geologi, hidrologi & meteorologi Anggraini Sarumaha, Elvira STATIC RESERVOIR MODELLING AND HYDROCARBON VOLUME ESTIMATION IN BATURAJA FORMATION, BETA AREA, SOUTH SUMATRA BASIN |
| description |
Beta Area is an area that has the potential to produce gas on the Baturaja Formation, South
Sumatra Basin based on the result of tested data on exploration wells. Administratively, Beta
Area is located in Ogan Komering Ulu Regency, South Sumatra Province. This area
physiographically lies in the Tertiary-aged of Sumatra back-arc basin. Geological studies
and reservoir modeling are focused at FS0-FS4 sequence interval on Baturaja Formation
comprise of limestone.
This study aims to comprehend the geological condition, determining reservoir static model,
and estimating hydrocarbon volume in the Beta Area. Data used in this study consist of
wireline logs, cutting description, biostratigraphy report, and three-dimensional seismic
data. Several methods used in this study comprise of well correlation using sequence
stratigraphy concept, petrophysical analysis, analysis of facies and depositional
environment, isopach determination, creating depth structure, three -dimensional structural
model, facies and petrophysical properties models, determination of fluids contact, and
hydrocarbon volume estimation.
The outcomes from all those methods show an overview of the geological condition and the
estimation of its hydrocarbon volume in the Beta Area. The results of the well analysis show
that the study area deposited in the transgressive phase comprises of wackestone limestone
and shale composing facies association as well as the depositional environment which is
restricted platform, open marine, platform sand shoals, and platform margin reef. The
prospect areas are divided into three areas and bounded by fault boundary. The volume
estimation (IGIP) result shows that the volume of gas in place from Prospect Area A is 6
BSCF, Prospect Area B is 50 BSCF, and Prospect Area C is 86 BSCF |
| format |
Final Project |
| author |
Anggraini Sarumaha, Elvira |
| author_facet |
Anggraini Sarumaha, Elvira |
| author_sort |
Anggraini Sarumaha, Elvira |
| title |
STATIC RESERVOIR MODELLING AND HYDROCARBON VOLUME ESTIMATION IN BATURAJA FORMATION, BETA AREA, SOUTH SUMATRA BASIN |
| title_short |
STATIC RESERVOIR MODELLING AND HYDROCARBON VOLUME ESTIMATION IN BATURAJA FORMATION, BETA AREA, SOUTH SUMATRA BASIN |
| title_full |
STATIC RESERVOIR MODELLING AND HYDROCARBON VOLUME ESTIMATION IN BATURAJA FORMATION, BETA AREA, SOUTH SUMATRA BASIN |
| title_fullStr |
STATIC RESERVOIR MODELLING AND HYDROCARBON VOLUME ESTIMATION IN BATURAJA FORMATION, BETA AREA, SOUTH SUMATRA BASIN |
| title_full_unstemmed |
STATIC RESERVOIR MODELLING AND HYDROCARBON VOLUME ESTIMATION IN BATURAJA FORMATION, BETA AREA, SOUTH SUMATRA BASIN |
| title_sort |
static reservoir modelling and hydrocarbon volume estimation in baturaja formation, beta area, south sumatra basin |
| url |
https://digilib.itb.ac.id/gdl/view/67088 |
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1822933239086448640 |