Imaging of karsts on buried carbonate platform in Central Luconia Province, Malaysia

Imaging of carbonate rocks in the subsurface through seismic method is always challenging due to its heterogeneity and fast velocity compared to the other rock types. Existence of karsts features on the carbonate rocks make it more complicated to interpret the reflectors. Utilization of modern inter...

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Bibliographic Details
Published in:IOP conference series. Earth and environmental science 2017-10, Vol.88 (1), p.12011
Main Authors: Fathiyah Jamaludin, Siti Nur, Mubin, Mukhriz, Abdul Latiff, Abdul Halim
Format: Article
Language:English
Subjects:
Acoustic impedance
Carbonate rocks
Heterogeneity
Karst
Morphology
Reflectors
Stratigraphy
Three dimensional models
Two dimensional models
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Summary:Imaging of carbonate rocks in the subsurface through seismic method is always challenging due to its heterogeneity and fast velocity compared to the other rock types. Existence of karsts features on the carbonate rocks make it more complicated to interpret the reflectors. Utilization of modern interpretation software such as PETREL and GeoTeric® to image the karsts morphology make it possible to model the karst network within the buried carbonate platform used in this study. Using combination of different seismic attributes such as Variance, Conformance, Continuity, Amplitude, Frequency and Edge attributes, we are able to image the karsts features that are available in the proven gas-field in Central Luconia Province, Malaysia. The mentioned attributes are excellent in visualize and image the stratigraphic features based on the difference in their acoustic impedance as well as structural features, which include karst. 2D & 3D Karst Models were developed to give a better understanding on the characteristics of the identified karsts. From the models, it is found that the karsts are concentrated in the top part of the carbonate reservoir (epikarst) and the middle layer with some of them becomes extensive and create karst networks, either laterally or vertically. Most of the vertical network karst are related to the existence of faults that displaced all the horizons in the carbonate platform.
ISSN:1755-1307
1755-1315
DOI:10.1088/1755-1315/88/1/012011