IDENTIFICATION OF CO2 DISTRIBUTION USING AVO ANALYSIS METHOD AND FAR-ANGLE SEISMIC ENHANCEMENT IN THE LOWER TALANG AKAR FORMATION (LTAF) IN FIELD
The "G" field has evolved into an oil and gas field that is currently and will be developed in the future, located precisely in the Jabung Block southeast of Jambi City. CO2 content in this field, particularly in the Lower Talang Akar Formation (LTAF) interval, is frequently encountered...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/81064 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The "G" field has evolved into an oil and gas field that is currently and will be
developed in the future, located precisely in the Jabung Block southeast of Jambi
City. CO2 content in this field, particularly in the Lower Talang Akar Formation
(LTAF) interval, is frequently encountered in all gas sandstone samples. Thus, CO2
content can be identified using the Amplitude Versus Offset (AVO) analysis method,
allowing an examination of its influence on CO2 presence percentages. The AVO
method to be employed covers a wide-angle range, approximately 0o-45o; however,
at the far-angle range, seismic data relatively does not exhibit a sufficiently robust
AVO response. Therefore, seismic enhancement methods are necessary. Seismic
enhancement results in seismic data with excellent vertical resolution (thin layers)
and lateral amplitude consistency. Gradient analysis using enhanced seismic data
has corrected vertical and lateral amplitude inconsistencies, particularly at far
angles (30o-45o), maintaining consistent crossplot patterns, and increasing the
correlation coefficient values from AVO modeling gradient analysis of well sample
data. Results obtained through this AVO method, following AVO modeling on well
data and gradient analysis on seismic data, indicate an average AVO response of
class 4 within the LTAF interval. AVO analysis of CO2 presence reveals that
reservoir intervals containing CO2 demonstrate a class 4 AVO response, with an
increase in fluid content percentage resulting in a more positive intercept and a
more negative gradient (towards class 1 AVO). In mapping CO2 distribution, the
best attribute used is AVO volume blending with intercept weight 2.62, gradient
2.62, product 2.31, amplitude-weighted 2.47, with an AVO blending correlation
value of 0.89. The influence of CO2 can lead to similar changes in AVO attributes
across compartments, flooding surface sequence intervals, and facies, as well as
the distribution of class 4 AVO anomalies with CO2 content exhibiting a pattern
consistent with the facies distribution obtained from well data correlation |
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