Providence Discovers New Fan Prospect in Porcupine Basin

Providence has recently completed an initial assessment of the Paleocene section within Frontier Exploration Licence (FEL) 2/14 in the southern Porcupine Basin, using the newly acquired Polarcus MC3D seismic reflection data.

This interpretation has confirmed the presence of a large c. 400 km2 Paleocene deep-water fan system, called “Druid”, within FEL 2/14 which had been apparent on the previous 2D long offset seismic profiles. Druid is the second large prospect to be identified in FEL 2/14, following the previously identified Lower Cretaceous Drombeg prospect (estimated P50 prospective resources of 1.050 BBOE REC).

These new 3D data provide a significant uplift in the detailed imaging of the internal depositional architecture within the Druid fan system and confirm that it has been sourced from the Porcupine Bank to the north-west. The central c. 60 km2 of the fan system exhibits marked mounded seismic morphologies which have previously been modeled to be consistent with a thick (up to c. 120 m) high porosity (up to c. 25%) shallowly buried (c. 1,700 m BML) sandstone reservoir system, the company explains.

This mounded central part of the Druid fan exhibits a marked Class II AVO anomaly which appears to be terminated in the up-dip direction by an erosive intra-fan channel with the AVO anomaly appearing to be depth consistent in the down-dip direction. The AVO anomaly also appears to be associated with a fluid escape feature from an underlying deeply buried pre-Cretaceous rotated fault block suggesting that it may be a direct hydrocarbon indicator (DHI). Further analyses of the 3D data to confirm this initial DHI assessment are ongoing.

John O’Sullivan, Technical Director commented:

“These initial 3D seismic observations at Druid are very encouraging given the considerable Paleocene exploration success that the neighboring UK West of Shetlands has enjoyed using similar 3D seismic imaging and attribute analysis.  We have witnessed a step change uplift in the imaging of the Druid fan system versus the previous 2D seismic data interpretation which now allows us to subdivide the fan into various sediment pulses and better understand potential reservoir sweet spots and intra-fan trapping morphologies which could be targeted with a future exploration well. Further work is ongoing which will ultimately include an estimate of Druid’s prospective resource potential.”