Changes

[[Compartmentalization]] gives rise to regional patterns of variability in reservoir characteristics and production performance that directly reflect variability in facies distributions or, more precisely, geological  [[Flow units for reservoir characterization|flow units]]. Unfortunately, it is not always possible to uniquely define the depositional environment and facies distribution because the reservoir, and the geographic distribution of the database from which to formulate an interpretation, may be smaller than the entire depositional system from which the reservoir originates (see Tillman & Jordan<ref name=pt06r139>Tillman, R. W., Jordan, D. W., 1987, Sedimentology and subsurface geology of deltaic forces, Admire GSO Sandstone, El Dorado field, Kansas, in Tillman, R. W., Weber, K. J., eds., Reservoir Sedimentology: SEPM Special Publication 40, p. 221–292.</ref> and Slatt et al.<ref name=pt06r122>Slatt, R. M., Phillips, S., Boak, J. M., Lagoe, M. B., 1993, Scales of geological heterogeneity of a deep-water sand giant oil field, Long Beach unit, Wilmington field, California, in Rhodes, E. G., Moslow, T. F., eds., Marine Clastic Reservoirs—Examples and Analogs: New York, Springer-Verlag.</ref> for examples).

[[Compartmentalization]] gives rise to regional patterns of variability in reservoir characteristics and production performance that directly reflect variability in facies distributions or, more precisely, geological  [[Flow units for reservoir characterization|flow units]]. Unfortunately, it is not always possible to uniquely define the depositional environment and facies distribution because the reservoir, and the geographic distribution of the database from which to formulate an interpretation, may be smaller than the entire depositional system from which the reservoir originates (see Tillman & Jordan<ref name=pt06r139>Tillman, R. W., Jordan, D. W., 1987, Sedimentology and subsurface geology of deltaic forces, Admire GSO Sandstone, El Dorado field, Kansas, in Tillman, R. W., Weber, K. J., eds., Reservoir Sedimentology: SEPM Special Publication 40, p. 221–292.</ref> and Slatt et al.<ref name=pt06r122>Slatt, R. M., Phillips, S., Boak, J. M., Lagoe, M. B., 1993, Scales of geological heterogeneity of a deep-water sand giant oil field, Long Beach unit, Wilmington field, California, in Rhodes, E. G., Moslow, T. F., eds., Marine Clastic Reservoirs—Examples and Analogs: New York, Springer-Verlag.</ref> for examples).

At this scale, [[Introduction to geophysical methods#Mapping with two-dimensional seismic data|analysis of conventional two-dimensional seismic data]], [[Seismic inversion|inverted two-dimensional seismic]] (Seislog), and [[Checkshots and vertical seismic profiles|vertical seismic profiling]] may be useful in delineating gross architectural elements. With recent improvements in acquisition, [[Basic seismic processing|processing]], and interpretation procedures, [[Three-dimensional seismic method|three-dimensional seismic]] is more widely used for reservoir delineation. Brown<ref name=pt06r17>Brown, A. R., 1986 Interpretation of three-dimensional seismic data: [http://store.aapg.org/detail.aspx?id=1025 AAPG Memoir 42], 194 p.</ref> provides several examples of the determination and mapping of structure, [[fluid contacts]], [[porosity]], bed thickness, lateral bed continuity, and various other attributes of reservoirs using three-dimensional seismic methods.

At this scale, [[Introduction to geophysical methods#Mapping with two-dimensional seismic data|analysis of conventional two-dimensional seismic data]], [[Seismic inversion|inverted two-dimensional seismic]] (Seislog), and [[Checkshots and vertical seismic profiles|vertical seismic profiling]] may be useful in delineating gross architectural elements. With recent improvements in [[acquisition]], [[Basic seismic processing|processing]], and [[Seismic interpretation|interpretation]] procedures, [[Three-dimensional seismic method|three-dimensional seismic]] is more widely used for reservoir delineation. Brown<ref name=pt06r17>Brown, A. R., 1986 Interpretation of three-dimensional seismic data: [http://store.aapg.org/detail.aspx?id=1025 AAPG Memoir 42], 194 p.</ref> provides several examples of the determination and mapping of structure, [[fluid contacts]], [[porosity]], bed thickness, lateral bed continuity, and various other attributes of reservoirs using three-dimensional seismic methods.

==See also==

==See also==