TY - JOUR
T1 - 3D stratigraphic forward modelling for analysis and prediction of carbonate platform stratigraphies in exploration and production
AU - Warrlich, Georg
AU - Bosence, Daniel
AU - Waltham, Dave
AU - Wood, Charlie
AU - Boylan, Amy
AU - Badenas, Beatriz
PY - 2008/1
Y1 - 2008/1
N2 - Stratigraphic forward modelling (SFM) has been used to answer important questions in stratigraphic analysis. This has been demonstrated through generic modelling of synthetic data and numerous two-dimensional (2D) real data case studies, but the method has rarely been used to further our understanding of specific, real three-dimensional (3D) carbonate data sets by quantitative comparison. This paper applies CARBONATE-3D, a SFM program, to a hydrocarbon reservoir and outcropping carbonate platforms at both exploration and production scales. We show the value of SFM in the exploration and production of hydrocarbons through predicting facies distributions and stratigraphic geometries between wells, and by analysing and answering fundamental questions about the formation of specific carbonate strata. First, the model is tested using the 3D outcrops of a Miocene attached carbonate platform at Níjar, SE-Spain where 78% of mapped facies are matched in the simulations. Second, SFM of an 80,000 km2 Jurassic ramp in NE Spain (exploration scale), predicts new facies in areas without data, leads to an improved understanding of ramp evolution, modification of the interpreted sea-level curve and re-interpretation of the main sediment transport direction. Application to the isolated platform reservoir Judy Creek (Devonian, Canada) exemplifies the advantages of applying SFM at reservoir scale. The simulations yield information on platform geometries and facies distributions, an improved understanding of the factors that control platform evolution, and propose a revised sea-level history. Wider applications of SFM in exploration include assessment of the possibilities and probabilities of facies distributions and evaluation and ranking of different interpretations of platform evolution. At the reservoir scale facies probability distributions and layer-geometries derived from SFM can serve as input into static reservoir models to guide geostatistical simulations.
AB - Stratigraphic forward modelling (SFM) has been used to answer important questions in stratigraphic analysis. This has been demonstrated through generic modelling of synthetic data and numerous two-dimensional (2D) real data case studies, but the method has rarely been used to further our understanding of specific, real three-dimensional (3D) carbonate data sets by quantitative comparison. This paper applies CARBONATE-3D, a SFM program, to a hydrocarbon reservoir and outcropping carbonate platforms at both exploration and production scales. We show the value of SFM in the exploration and production of hydrocarbons through predicting facies distributions and stratigraphic geometries between wells, and by analysing and answering fundamental questions about the formation of specific carbonate strata. First, the model is tested using the 3D outcrops of a Miocene attached carbonate platform at Níjar, SE-Spain where 78% of mapped facies are matched in the simulations. Second, SFM of an 80,000 km2 Jurassic ramp in NE Spain (exploration scale), predicts new facies in areas without data, leads to an improved understanding of ramp evolution, modification of the interpreted sea-level curve and re-interpretation of the main sediment transport direction. Application to the isolated platform reservoir Judy Creek (Devonian, Canada) exemplifies the advantages of applying SFM at reservoir scale. The simulations yield information on platform geometries and facies distributions, an improved understanding of the factors that control platform evolution, and propose a revised sea-level history. Wider applications of SFM in exploration include assessment of the possibilities and probabilities of facies distributions and evaluation and ranking of different interpretations of platform evolution. At the reservoir scale facies probability distributions and layer-geometries derived from SFM can serve as input into static reservoir models to guide geostatistical simulations.
KW - carbonate
KW - stratigraphic forward modelling
KW - SE SPAIN
KW - SEQUENCE STRATIGRAPHY
KW - DEPOSITIONAL SYSTEMS
KW - COMPUTER-SIMULATION
KW - ALMERIA PROVINCE
KW - SALINITY CRISIS
KW - UPPER MIOCENE
KW - REEF GROWTH
KW - U-PB
KW - FACIES
UR - http://www.scopus.com/record/display.url?eid=2-s2.0-38049140829&origin=inward&txGid=8Cw8svzlAVjQ2NGGgc2g7yn%3a4
U2 - 10.1016/j.marpetgeo.2007.04.005
DO - 10.1016/j.marpetgeo.2007.04.005
M3 - Article
SN - 1873-4073
VL - 25
SP - 35
EP - 58
JO - Marine and Petroleum Geology
JF - Marine and Petroleum Geology
IS - 1
ER -