RESERVOIR DISTRIBUTION AND DEPOSITIONAL MODEL ANALYSIS OF TALANG AKAR FORMASTION: CASE STUDY KL FIELD OFFSHORE NORTH WEST JAVA
Talang Akar formation in Offshore North West Java (ONWJ) is considered to have significant remaining hydrocarbon potential which currently unexplored because of several limitations as follows: poor seismic data quality due to multiple carbonate layers/build-ups in the overburden (Parigi, Pre-P...
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| Format: | Theses |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/18231 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Talang Akar formation in Offshore North West Java (ONWJ) is considered to have
significant remaining hydrocarbon potential which currently unexplored because of
several limitations as follows: poor seismic data quality due to multiple carbonate
layers/build-ups in the overburden (Parigi, Pre-Parigi, Baturaja), shallow gas, fault
shadow etc. In geology, TAF target is dominated by deltaic system which might
appears as non continuous event on the seismic data. Thin reservoir in the relatively
deep buried has made the reservoir within tuning thickness zone. It leads to the more
complex problem. Therefore, TAF become very difficult to be mapped.
The successful exploration activities of TAF in 80’-90’s, Most of them were based on
the structural high which discovered multiple reservoirs with good quality in that
present structural high. Every proposed well become very uncertain without supported
by seismic image and geological understanding. Consequently, there is still some
remaining work to optimize the research of TAF potential.
Understanding of the existing data is very critical to define any alternative method to
be utilized. The use of seismic phase with some control wells and flattened technique
on the proper horizon has exhibited geological phenomena of the TAF in the area.
Combined with amplitude extraction, the result is expected to explain more detail of
reservoir existences in present structural high.
The interpretation of the data indicates that multiple reservoirs on the present
structural high as a result of possible infill incision process associated with syndepositional fault activity of rifting process. Amplitude extraction from phase based
interpreted horizons indicates good correlation between amplitude and gross reservoir
thickness from wells. Paleo-geography of the area is interpreted as incised valleys fill
fluvial deltaic system associated with fault activity and erosion located in the edge of
the basin.
Geological reconstruction was built to model the geological process and mechanism
in the area. This model shows valley incision and its deposits associated with uplift
and subsidence mechanism during rifting process. The continuous of domino block
process causes continuous of subsidence and uplift of the connected sub-basin. This
mechanism is believed to expose deposited reservoir in low relief area become on the
current structural high.
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