THE DETERMINATION OF EXPLORATION PLAY IN DEEP WATER ENVIRONMENTAL (LATE MIOCENE) OF TARAKAN BASIN (INDONESIA) WITH SEISMIC ATTRIBUTES AND ACOUSTIC IMPEDANCE INVERSION
This studi located in Tarakan Basin. The Tarakan Basin is a basin in Indonesia where oil and natural gas have been found. Where the deep sea floor fan sandstone is one of the reservoirs that contribute to hydrocarbons, and it is the target of this research. This research purposed to know the pros...
Saved in:
| Main Author: | |
|---|---|
| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/69914 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | This studi located in Tarakan Basin. The Tarakan Basin is a basin in Indonesia where oil and
natural gas have been found. Where the deep sea floor fan sandstone is one of the reservoirs
that contribute to hydrocarbons, and it is the target of this research. This research purposed
to know the prospect zone of hydrocarbon reservoar in the deep sea floor fan sandstone using
model based accoustic impedance inversion and seismik attribute. Accoustic impedance
inversion used to know the distribution of accoustic impedance’s value in deep sea floor fan
sandstone. Trough amplitude and envelope attributes used to determine the energy’s
distribution in the reservoir layer. This study correlated seismic attribute maps, acoustic
impedance, porocity and time structure maps to determine the gas reservoir prospect zone,
play system and to obtain drill point recommendations.
Based on accoustic impedance map generated model based inversion the prospect reservoir
zone indicated with low accoustic impedance values lower than 14500 ((ft/s)*(gr/cc)) with
porocity of 26%-32% . The potential area is shown from trough amplitudo and envelope
attribute with each value less than -1000 and more than 1000. Based on information from
acoustic impedance, porocity, seismic attributes and related to the time structure map, the
distribution area of the deep sea floor fan reservoir prospect zone is located on the eastern
part of the map and continues from NE-SW along the anticline with traps in the form of
structure and stratigraphy. The next recommended drill point is located along the gas reservoir
prospect zone that has been determined. |
|---|