RESERVOIR CONTINUITY ANALYSIS UTILYSING GAS CHROMATOGRAPHY FINGERPRINT IN THE âSâ OIL FIELD, SOUTH SUMATRA BASIN, SOUTH SUMATRA
Problems often faced by the oil field 'S' are the nature of different crude oil physical property in the producing wells. Drilling often met dry hole nearby producing wells, so that field development becomes difficult to plan. The use of fluid geochemistry is useful accompanying the more...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/69611 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Problems often faced by the oil field 'S' are the nature of different crude oil physical property in the
producing wells. Drilling often met dry hole nearby producing wells, so that field development
becomes difficult to plan. The use of fluid geochemistry is useful accompanying the more
traditional reservoir geology and production-engineering tools, such as well log and well tests.
The result of crude oil chromatogram gives more understanding and complete reservoir
characterisation. The chromatography technique can be applied in the early stages of field
development as well as in the later stages of the reservoir management. This thesis describes the
technique of reservoir characterization using gas chromatography and illustrates the case histories
from the ‘S’ field, Musi Platform, South Sumatra Basin in the South Sumatra extension region.
From visual perception, the crude oils produced in ‘S’ field have some differences quality including
color and viscosity, which generate suspicion of the existence of reservoir continuity problem. To
understand this problem, a laboratory research utilizing gas chromatography analysis was applied to
clarify the reservoir character. In this study, nine crude oils from 'S' oil field have been analyzed
using gas chromatography to identify the reservoir continuity among producing zones at Baturaja
Formation reservoir. Data analyses and interpretation distinguish seven crude oil samples (S-D3, SD4,
S-04, S-D1, S-D2ST, S-F1 And S-F2) are light oil, while two crude oil samples (S-B2 And SG1)
are moderate. These oils were generated from terrestrial source rock comprising of mixed Type
II and Type III kerogens. Minor alteration including biodegradation involved in these crude oil
samples. Eight crude oils (S-B2, S-D3, S-D4, S-04, S-D1, S-D2ST, S-F1 and S-F2) were slightly
evaporated during fractionation, while S-G1 was minor biodegraded. The analyses result of
interparaffin between nC9 and nC18 shows that these nine crude oil samples from ‘S’ oil field have a
relatively similar fingerprint, indicating the occurrence of fluid communication among the oils.
Therefore, it appears that the reservoir in the ‘S’ oil field is interconnected. |
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