F. Temple scite author profile

The examination of production history from hydrocarbon fields composed of turbidite deposits indicates that fluid flow behaviour is often more complex than expected. The cause is commonly linked to the presence of fine-scale sedimentary heterogeneities, which complicate the reservoir. This is especially true in the case of turbiditic submarine channel complexes with final channel-filling stages composed of lateral migration deposits. These fine-scale heterogeneities are usually below seismic resolution and are rarely represented in initial reservoir models designed for such fields. Thus, it is difficult to match the production history or identify methods to improve production and reduce associated risks. The various depositional patterns recognized in channel migration and aggradation packages from the Oligocene Malembo Formation of the Congo Basin, offshore Angola, exhibit different dynamic responses when modelled in a reservoir simulator. These dynamic differences are related to the different preservation rates of bank collapse sediments within isolated channel bodies, hereafter referred to as ‘elementary channels’. According to these preservation differences, the vertical stacking pattern of channels results in better connectivity than the true lateral migration. This effect has been incorporated into a full-field simulation model by applying petrophysical upscaling methods. The recognition and modelling of detailed sedimentological heterogeneities, and their distribution along full-field models produces a better history match when the inherent uncertainties have been taken into account. Incorporating all available data and concepts to define reservoir architecture is essential in understanding the impact that fine-scale heterogeneities have on reservoir management. As the lateral extent and areal distribution of heterogeneities is still unknown, our modelling workflow incorporates uncertainty in the form of multiple realizations to identify and measure all uncertainties that might impact dynamic response.

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3D Modelling of Stacked Turbidite Channels – Impact on Dynamic Reservoir Simulations

Labourdette¹,

Seguin²,

Biver³

et al. 2004

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From Seismic Facies Interpretation to the 3D Sedimentological Model, Baudroie Field, Gabon - a Case Study

Kalna¹,

Temple²,

Dumay³

et al. 2001

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Impact of Sedimentary Heterogeneity on Reservoir Monitoring in a Turbiditic Channel Complex – Angolan Deep Offshore Girassol Field Case

Raisson¹,

Temple²

2004

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F. Temple

The role of deformation processes on the geometry of mud-dominated turbiditic systems, Oligocene and Lower–Middle Miocene of the Lower Congo basin (West African Margin)

Three-dimensional modelling of stacked turbidite channels inWest Africa: impact on dynamic reservoir simulations

3D Modelling of Stacked Turbidite Channels – Impact on Dynamic Reservoir Simulations

From Seismic Facies Interpretation to the 3D Sedimentological Model, Baudroie Field, Gabon - a Case Study

Impact of Sedimentary Heterogeneity on Reservoir Monitoring in a Turbiditic Channel Complex – Angolan Deep Offshore Girassol Field Case

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