APPLICATION OF CONVERTED WAVE METHOD IN SYNTHETIC AND REAL DATA MODELS FOR IMAGING STUDY OF THIN BED LAYER
One of the most important steps in the seismic method is data processing which aims to improve the quality of the signal to noise ratio seismic data, so as to produce a seismic section that represents the subsurface well. Seismic technology in hydrocarbon exploration still dominates today, especi...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/43995 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | One of the most important steps in the seismic method is data processing which
aims to improve the quality of the signal to noise ratio seismic data, so as to produce
a seismic section that represents the subsurface well. Seismic technology in
hydrocarbon exploration still dominates today, especially the P-wave reflection
seismic method. But in certain cases, the conventional P-P reflection seismic
method has a weakness in giving an overview of complex geological conditions and
often gives an ambiguous response. Therefore, we need another approach known
as converted-wave seismic exploration using a multicomponent geophone that is
able to record P waves on vertical components and S waves on horizontal
components. As a validation step, the converted-wave method is applied to synthetic
data with a thin bed layer model under shallow gas. The purpose of this study is to
compare seismic section images of P-P and P-S processing that are affected by
shallow gas against thin bed layers and the underlying geological structures. The
results of the study show that the seismic section of the P-S processing migration is
much better in describing the base of the shallow gas, so that the image of the thin
bed layer under the shallow gas is seen more clearly than the P-P migration. This
is confirmed by the vertical resolution calculation that has been done, when ???????? is
smaller than ????????, it will increase the vertical resolution of the seismic data. Seismic
data processing is continued by extracting information from the P-SV wave from
the vertical component that associated with the P-P wave. This is based on the fact,
that S waves are recorded on both the vertical and horizontal components of the
geophone. The value of Vp/Vs during binning process have a role in the success of
P-SV gather extraction on vertical components. When the CCP binning layout
configuration model has a value of Vp / Vs ? 2, the extraction of P-SV waves on the
vertical component is difficult. This is because the separation between CDP and
CCP is quite close, so that the P-P wave energy is more dominant than the
converted wave energy (P-SV). |
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