SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3202305847> ?p ?o ?g. }

Showing items 1 to 100 of ±111 with 100 items per page.

W3202305847 endingPage "105372" @default.
W3202305847 startingPage "105372" @default.
W3202305847 abstract "Reservoir architecture is key in determining reservoir performance and hydrocarbon productivity but varies greatly in deep-water clastic reservoir systems. However, the interpretation of turbidite architectures can be a daunting exercise for non-specialists or those without experience in deep-water settings. Parameters that can be used to make interpretations are copious, vary in usefulness from one system to another, vary in scale and can take a lifetime to master. In this paper we introduce the simple concept of the relative confinement matrix and explain how it can be used by non-specialist geologists to interpret depositional architectures and hence inform all-important forecasts of performance and productivity. We show how any available parameter can fit into this matrix and be used to derive interpretations in a relatively quick manner. Our central concept is the relationship between the size of a turbidity current and the size of the conduit through which it flows and hence the degree of relative confinement to which a flow is subjected, which can in turn be related to depositional style and resulting reservoir architecture. Predictive interpretations can be made by observing patterns at the core and log scale, relating these to relative confinement and thus to larger, seismic-scale architectures. Variations in relative confinement are expressed through lateral bed continuity, vertical connectivity, amalgamation ratio, net:gross, distribution of hemi-pelagics, distribution and uniformity of facies associations, bed thickness frequency distribution, bioturbation diversity and intensity, distribution of sedimentary structures, mineralogical content, variability & textural maturity, grain size and grain size variability. Notionally the expression of the interaction of flow size and conduit size is described for individual turbidity current deposits, but this can also be translated to the bed-set scale, or larger, in genetically similar units. The careful analysis of the parameters described above allows the prediction of depositional architectures through the understanding of relative confinement for use in exploration and development. The architectural predictions in turn provide the basis for understanding permeability length-scales, kv/kh ratios and hence production performance through these heterogeneous reservoirs." @default.
W3202305847 created "2021-10-11" @default.
W3202305847 creator A5006337833 @default.
W3202305847 creator A5048535530 @default.
W3202305847 date "2022-01-01" @default.
W3202305847 modified "2023-10-18" @default.
W3202305847 title "Practical turbidite interpretation: The role of relative confinement in understanding reservoir architectures" @default.
W3202305847 cites W1971441077 @default.
W3202305847 cites W1973912994 @default.
W3202305847 cites W1977385910 @default.
W3202305847 cites W1986002199 @default.
W3202305847 cites W1991708663 @default.
W3202305847 cites W1994760441 @default.
W3202305847 cites W2014697670 @default.
W3202305847 cites W2032363988 @default.
W3202305847 cites W2033603247 @default.
W3202305847 cites W2034803743 @default.
W3202305847 cites W2045443252 @default.
W3202305847 cites W2046674688 @default.
W3202305847 cites W2081206422 @default.
W3202305847 cites W2084335292 @default.
W3202305847 cites W2088381531 @default.
W3202305847 cites W2099989330 @default.
W3202305847 cites W2100674859 @default.
W3202305847 cites W2109222348 @default.
W3202305847 cites W2129582470 @default.
W3202305847 cites W2130579245 @default.
W3202305847 cites W2135970293 @default.
W3202305847 cites W2138294608 @default.
W3202305847 cites W2144432096 @default.
W3202305847 cites W2152669804 @default.
W3202305847 cites W2163492716 @default.
W3202305847 cites W2206690974 @default.
W3202305847 cites W2311971924 @default.
W3202305847 cites W2386950876 @default.
W3202305847 cites W2606984216 @default.
W3202305847 cites W2726475007 @default.
W3202305847 cites W2802249882 @default.
W3202305847 cites W2808603335 @default.
W3202305847 cites W2886499219 @default.
W3202305847 cites W2904557815 @default.
W3202305847 cites W2974763034 @default.
W3202305847 cites W2979353181 @default.
W3202305847 cites W3135380492 @default.
W3202305847 doi "https://doi.org/10.1016/j.marpetgeo.2021.105372" @default.
W3202305847 hasPublicationYear "2022" @default.
W3202305847 type Work @default.
W3202305847 sameAs 3202305847 @default.
W3202305847 citedByCount "6" @default.
W3202305847 countsByYear W32023058472021 @default.
W3202305847 countsByYear W32023058472022 @default.
W3202305847 countsByYear W32023058472023 @default.
W3202305847 crossrefType "journal-article" @default.
W3202305847 hasAuthorship W3202305847A5006337833 @default.
W3202305847 hasAuthorship W3202305847A5048535530 @default.
W3202305847 hasConcept C101433766 @default.
W3202305847 hasConcept C109007969 @default.
W3202305847 hasConcept C126753816 @default.
W3202305847 hasConcept C127313418 @default.
W3202305847 hasConcept C138170599 @default.
W3202305847 hasConcept C138496976 @default.
W3202305847 hasConcept C146588470 @default.
W3202305847 hasConcept C151730666 @default.
W3202305847 hasConcept C15744967 @default.
W3202305847 hasConcept C157954998 @default.
W3202305847 hasConcept C183250156 @default.
W3202305847 hasConcept C205649164 @default.
W3202305847 hasConcept C2778755073 @default.
W3202305847 hasConcept C548895740 @default.
W3202305847 hasConcept C58640448 @default.
W3202305847 hasConcept C5900021 @default.
W3202305847 hasConcept C6494504 @default.
W3202305847 hasConcept C70004062 @default.
W3202305847 hasConceptScore W3202305847C101433766 @default.
W3202305847 hasConceptScore W3202305847C109007969 @default.
W3202305847 hasConceptScore W3202305847C126753816 @default.
W3202305847 hasConceptScore W3202305847C127313418 @default.
W3202305847 hasConceptScore W3202305847C138170599 @default.
W3202305847 hasConceptScore W3202305847C138496976 @default.
W3202305847 hasConceptScore W3202305847C146588470 @default.
W3202305847 hasConceptScore W3202305847C151730666 @default.
W3202305847 hasConceptScore W3202305847C15744967 @default.
W3202305847 hasConceptScore W3202305847C157954998 @default.
W3202305847 hasConceptScore W3202305847C183250156 @default.
W3202305847 hasConceptScore W3202305847C205649164 @default.
W3202305847 hasConceptScore W3202305847C2778755073 @default.
W3202305847 hasConceptScore W3202305847C548895740 @default.
W3202305847 hasConceptScore W3202305847C58640448 @default.
W3202305847 hasConceptScore W3202305847C5900021 @default.
W3202305847 hasConceptScore W3202305847C6494504 @default.
W3202305847 hasConceptScore W3202305847C70004062 @default.
W3202305847 hasLocation W32023058471 @default.
W3202305847 hasOpenAccess W3202305847 @default.
W3202305847 hasPrimaryLocation W32023058471 @default.
W3202305847 hasRelatedWork W147391571 @default.
W3202305847 hasRelatedWork W1983379341 @default.
W3202305847 hasRelatedWork W1989599164 @default.
W3202305847 hasRelatedWork W2020549295 @default.