Hydrocarbon Potential in Sandstone Reservoir Isolated inside Low Permeability Shale Rock (Case Study: Beruk Field, Central Sumatra Basin)

Upper Red Bed, Menggala Formation, Bangko Formation, Bekasap Formation and Duri Formationare considered as the major reservoirs in Central Sumatra Basin (CSB). However, Telisa Formation which is well-known as seal within CSB also has potential as reservoir rock. Field study discovered that lenses an...

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Bibliographic Details
Published in:IOP conference series. Earth and environmental science 2018-03, Vol.132 (1), p.12034
Main Authors: Diria, Shidqi A, Musu, Junita T, Hasan, Meutia F, Permono, Widyo, Anwari, Jakson, Purba, Humbang, Rahmi, Shafa, Sadjati, Ory, Sopandi, Iyep, Ruzi, Fadli
Format: Article
Language:English
Subjects:
Central Sumatra Basin
deltaic system
Hydrocarbons
low permeability
Mud flats
Permeability
Porosity
Reservoirs
Rocks
Sandstone
Saturated hydrocarbons
Shale
Shales
Static models
Telisa Formation
Well logs
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Summary:Upper Red Bed, Menggala Formation, Bangko Formation, Bekasap Formation and Duri Formationare considered as the major reservoirs in Central Sumatra Basin (CSB). However, Telisa Formation which is well-known as seal within CSB also has potential as reservoir rock. Field study discovered that lenses and layers which has low to high permeability sandstone enclosed inside low permeability shale of Telisa Formation. This matter is very distinctive and giving a new perspective and information related to the invention of hydrocarbon potential in reservoir sandstone that isolated inside low permeability shale. This study has been conducted by integrating seismic data, well logs, and petrophysical data throughly. Facies and static model are constructed to estimate hydrocarbon potential resource. Facies model shows that Telisa Formation was deposited in deltaic system while the potential reservoir was deposited in distributary mouth bar sandstone but would be discontinued bedding among shale mud-flat. Besides, well log data shows crossover between RHOB and NPHI, indicated that distributary mouth bar sandstone is potentially saturated by hydrocarbon. Target area has permeability ranging from 0.01-1000 mD, whereas porosity varies from 1-30% and water saturation varies from 30-70%. The hydrocarbon resource calculation approximates 36.723 MSTB.
ISSN:1755-1307
1755-1315
DOI:10.1088/1755-1315/132/1/012034