MULTIATTRIBUTE SEISMIC ANALYSIS FOR MAPPING SANDSTONE RESERVOIR IN âZENâ FIELD, LOWER TALANG AKAR FORMATION, SOUTH SUMATERA BASIN
The oil and gas sector plays an important role in maintaining economic and energy stability in Indonesia. SKK Migas targets upstream oil and gas production of one million BOPD of oil and 12 billion SCFD of gas by 2030. In order to support this target, it is necessary to develop oil and gas fields...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/69166 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The oil and gas sector plays an important role in maintaining economic and energy
stability in Indonesia. SKK Migas targets upstream oil and gas production of one
million BOPD of oil and 12 billion SCFD of gas by 2030. In order to support this
target, it is necessary to develop oil and gas fields in Indonesia, one of which is by
reservoir characterization. One of these developments is in the "ZEN" Field which
is an oil and gas field located in the South Sumatra Basin with the main target of
sandstone reservoirs in the Lower Talang Akar Formation which is divided into
four target zone intervals (Upper LTAF, Middle LTAF, Lower LTAF, Simpang
LTAF). The purpose of this study was to determine the distribution of sandstone
reservoirs and their deposition environments as well as recommendations for
development well locations using 3D PSTM seismic data and 64 wells. The
sandstone reservoir in the "ZEN" Field has coal and shale in it so that causes
ambiguity in seismic records. In addition, the "ZEN" field is also divided into three
compartments due to faults. Therefore, a sensitive parameter is needed to map and
distinguish sandstone reservoirs from other lithologies. Based on the
characteristics and results of sensitivity analysis by crossploting acoustic
impedance (AI) and density log data, it shows that density can distinguish sandstone
reservoirs and other lithologies with different sandstone reservoir cutoff values at
each interval. Therefore, the effective method used in this study is multiatribute
seismic with attribute external inputs in the form of acoustic impedance inversions
used to predict the distribution of sandstone reservoirs in the "ZEN" field. After
that, slicing is carried out at each interval to obtain the distribution of density
values laterally. Then the location of the new development well is determined by
making a hydrocarbon contact map from the density map with the depth contours
of the location selected with a consistent distribution of sandstone and hydracarbon
at each interval. |
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