Innovative Integration of Seismic and Well Data to Characterize Tar Mat in Carbonate Reservoirs

Matarid, Tarek Mohamed; Lehmann, Christoph; Al-Hossani, Khalil; Cobb, David Owen; Smith, Adrian

doi:10.2523/iptc-13451-ms

Cited by 1 publication

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“…It is about 15 km long and 7 km wide, with a relief of more than 366 m and is considered one of the largest in the area (Matarid et al . ). The main structure of the field was formed as a result of periodic deep‐seated salt movement and basement faulting (Matarid et al .…”

Section: Study Areamentioning

confidence: 97%

“…The main structure of the field was formed as a result of periodic deep‐seated salt movement and basement faulting (Matarid et al . ).…”

Section: Study Areamentioning

confidence: 97%

“…The Arab D reservoir is a coarsening upward succession with a gradual increase in porosity towards the top (Matarid et al . ). A regional stratigraphic column for the field is presented in Fig.…”

Section: Study Areamentioning

confidence: 97%

“…The tar mat blocks the porosity in the Arab D reservoir and acts as a vertical permeability barrier isolating the reservoir from the aquifer (Matarid et al . ).…”

Section: Study Areamentioning

confidence: 97%

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Attenuation modes from Vertical Seismic Profiling and sonic waveform in a carbonate reservoir, Abu Dhabi, United Arab Emirates

Bouchaala

Ali

Matsushima

2016

Geophysical Prospecting

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A B S T R A C TIn this study, we derived accurate and high-resolution attenuation profiles using spectral ratio, centroid frequency shift, and seismic interferometry methods. We utilized high-quality vertical seismic profiling and sonic waveform data acquired in a carbonate reservoir located in Abu Dhabi, United Arab Emirates. The scattering profile of vertical-seismic-profiling data contributes significantly to wave attenuation that can be explained by high heterogeneity of the carbonate rocks. The scattering profile also correlates well with the reservoir lithology and fractured zones imaged by the Formation MicroImager. A tar mat zone occurs within the lower part of Arab D reservoir. This zone corresponds with a decrease in scattering attenuation. The tar mat may have filled the pores and made this zone less heterogeneous. Therefore, a decrease in scattering attenuation can be considered a potential parameter for tar mat detection. After removing the scattering effect, nonphysical negative intrinsic attenuation values still exist at certain depths. The most probable explanation for this is the three-dimensional scattering effect, which is not taken into account in this paper, and short-period upgoing waves. Seismic interferometry is less sensitive to the remaining scattered upgoing wave, which is why seismic interferometry method shows fewer negative values than the spectral ratio and centroid frequency shift methods. Compared with vertical-seismic-profiling attenuation, scattering attenuation estimated from sonic waveforms recorded in the reservoir zones is insignificant, and the intrinsic attenuation is almost equivalent to the total attenuation. We attribute this underestimation of the scattering attenuation to the sparse spatial sampling of the sonic logging data at 0.1524 m, which is not sufficient to appropriately estimate the scattering effect in heterogeneous media. The cross-plots between sonic attenuation and various petrophysical properties show slight dependence between the sonic attenuation and neutron porosity and resistivity in the reservoir zones. However, we can highlight from these plots two zones belonging to the Arab reservoirs. The lower zone corresponds to Arab D reservoir and displays higher sonic intrinsic attenuation than the upper zone (Arab A-C reservoirs) due to higher oil saturation. This highlights the sensitivity of the intrinsic attenuation to the oil saturation.

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Section: Study Areamentioning

confidence: 97%

“…The main structure of the field was formed as a result of periodic deep‐seated salt movement and basement faulting (Matarid et al . ).…”

Section: Study Areamentioning

confidence: 97%

Section: Study Areamentioning

confidence: 97%

“…The tar mat blocks the porosity in the Arab D reservoir and acts as a vertical permeability barrier isolating the reservoir from the aquifer (Matarid et al . ).…”

Section: Study Areamentioning

confidence: 97%

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