OVERPRESSURE ANALYSIS AND ITS RELATIONSHIP TO HYDROCARBON ACCUMULATION IN NUNUKAN BLOCK, TARAKAN SUBBASIN
Overpressuring has created drilling problems for most operators in the Tarakan Subbasin. Kick, loss, shale caving and stuck pipe are common encountered while drilling in this overpressured zone, especially for exploration drilling. Several drilling projects even prematurely terminated before reac...
محفوظ في:
| المؤلف الرئيسي: | |
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| التنسيق: | Theses |
| اللغة: | Indonesia |
| الموضوعات: | |
| الوصول للمادة أونلاين: | https://digilib.itb.ac.id/gdl/view/56937 |
| الوسوم: |
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| الملخص: | Overpressuring has created drilling problems for most operators in the Tarakan
Subbasin. Kick, loss, shale caving and stuck pipe are common encountered while
drilling in this overpressured zone, especially for exploration drilling. Several
drilling projects even prematurely terminated before reaching the proposed total
depth due to this overpressuring problem. Therefore, only a small of hydrocarbon
accumulations have been proven and bring question about the possibility of large
accumulation beneath the overpressured zone.
Seven wells and approximately 30 km of 2D interval seismic velocity have been
evaluated to identify the characteristic of overpressure. Eaton’s sonic pore pressure
prediction was used in this research to estimate pore pressure profile and to identify
top overpressure and top hard overpressure. Velocity-density crossplot and
velocity-effective stress crossplot were used to identify the overpressure
mechanism. Integrated evaluation of pore pressure prediction and hydrocarbon
indicators from wells and seismic can estimate the possibility of hydrocarbon
accumulation beneath the overpressured zone.
Overpressure distribution within this research area varies with the shallowest top
overpressure is in the eastern area, which correlates with high shale contain. Both
loading and unloading overpressure mechanisms exist. The unloading mechanism
was predicted as the hydrocarbon generation. There is a positive indication that
the transition zone from top overpressure to top hard overpressure could potentially
be the largest hydrocarbon accumulation up to 14.000 feet.
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