Building 3D Lithofacies and Depositional Models Using Sequential Indicator Simulation (SISIM) Method: A Case History inWestern Niger Delta
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Springer
Abstract
Description
Sequential indicator simulation algorithm is one of the popular stochastic simulation algorithms for reservoir geomodelling. It
has been used to model delineated lithofacies and depofacies units within the OPO field, western Niger Delta. This simulation
algorithm was chosen because of its ability to honour the well logs as local conditioning data using the global histogram, areal
and vertical geological trends of the data, as well as the patterns of correlation. Three lithofacies were identified and modelled,
namely sand, shaly sand and shale units. Vertical succession of the depositional facies within the field reveals five major facies
which are basal shelf shale facies, heterolithic (sand–shale) facies, lower shoreface sand facies, upper shoreface sand facies
and shoreface channel systems. The general environment of deposition is interpreted to be shoreline–shelf systems where
the shoreface channel units, upper shoreface sand, lower shaly sand and heterolithic units constitute the parallic reservoir
sequences, while the shale units within the shoreface and coastal environments act as potential source rocks and caprocks for
hydrocarbon accumulation.
Keywords
Q Science (General), QC Physics