SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2896837514> ?p ?o ?g. }

Showing items 1 to 100 of ±122 with 100 items per page.

W2896837514 endingPage "236" @default.
W2896837514 startingPage "222" @default.
W2896837514 abstract "Due to their initial low permeability, unconventional plays can be economical only through hydraulic fracturing. This process, in order to be controlled needs to rely on a solid representation of the natural fracture geometry, an accurate stimulation model which considers the interaction with natural lineaments, and a physical reservoir model which can account for the different flow regimes occurring during production. The stimulated volume drainage can be evaluated using either Decline Curves Analysis/Rate Transient Analysis (DCA/RTA) techniques or reservoir simulation. In both cases, the geometry of the final Discrete Fracture Network (DFN) issued from the natural characterization and the stimulation, is very important, and for practical purposes is either overly idealized (Warren & Root approach) or oversimplified (Bi-wing). The models have shown their limitations when confronted with measurements in the field, opening up ways to use DFN geometries within integrated reservoir studies. The present work addresses some of the issues above, developing a hierarchical Discrete Fracture Model (DFM) based on the “filtering” of a stimulated DFN, realistically obtained by the characterization step and the stimulation process. This leads to a triple-continuum representation, consisting of: (1) the matrix media, (2) a high conductive stimulated fracture network and (3) a low conductive stimulated fracture network. The method consists in homogenizing low conductive networks, keeping a user defined backbone of high conductive fractures as the main “reservoir” DFN. One of the main advantages of this DFM relies on the way we compute the well-known Multiple Interacting Continua (MINC) approach, using a “proximity function” formalism, able to simulate transient effects. Using practical examples, this paper demonstrates applicability capacities of this method, enabling the integration of more complex geometries within a “quick” simulation framework." @default.
W2896837514 created "2018-10-26" @default.
W2896837514 creator A5001762925 @default.
W2896837514 creator A5047861147 @default.
W2896837514 creator A5054682974 @default.
W2896837514 creator A5068128934 @default.
W2896837514 creator A5083728713 @default.
W2896837514 date "2019-02-01" @default.
W2896837514 modified "2023-10-15" @default.
W2896837514 title "Flow modelling of unconventional shale reservoirs using a DFM-MINC proximity function" @default.
W2896837514 cites W1970037416 @default.
W2896837514 cites W1978359449 @default.
W2896837514 cites W1989159851 @default.
W2896837514 cites W1991785777 @default.
W2896837514 cites W2001682773 @default.
W2896837514 cites W2010930285 @default.
W2896837514 cites W2035012834 @default.
W2896837514 cites W2037298597 @default.
W2896837514 cites W2039850807 @default.
W2896837514 cites W2043974102 @default.
W2896837514 cites W2046435379 @default.
W2896837514 cites W2056661744 @default.
W2896837514 cites W2057675530 @default.
W2896837514 cites W2071738622 @default.
W2896837514 cites W2075234522 @default.
W2896837514 cites W2083501502 @default.
W2896837514 cites W2090520155 @default.
W2896837514 cites W2105523984 @default.
W2896837514 cites W2131343962 @default.
W2896837514 cites W2165408367 @default.
W2896837514 cites W2230385495 @default.
W2896837514 cites W2282070308 @default.
W2896837514 cites W2438711570 @default.
W2896837514 cites W2594677851 @default.
W2896837514 cites W2625441549 @default.
W2896837514 cites W2751665915 @default.
W2896837514 cites W2751892737 @default.
W2896837514 cites W2756200708 @default.
W2896837514 cites W2757143997 @default.
W2896837514 cites W3160245480 @default.
W2896837514 doi "https://doi.org/10.1016/j.petrol.2018.10.014" @default.
W2896837514 hasPublicationYear "2019" @default.
W2896837514 type Work @default.
W2896837514 sameAs 2896837514 @default.
W2896837514 citedByCount "17" @default.
W2896837514 countsByYear W28968375142019 @default.
W2896837514 countsByYear W28968375142020 @default.
W2896837514 countsByYear W28968375142021 @default.
W2896837514 countsByYear W28968375142022 @default.
W2896837514 countsByYear W28968375142023 @default.
W2896837514 crossrefType "journal-article" @default.
W2896837514 hasAuthorship W2896837514A5001762925 @default.
W2896837514 hasAuthorship W2896837514A5047861147 @default.
W2896837514 hasAuthorship W2896837514A5054682974 @default.
W2896837514 hasAuthorship W2896837514A5068128934 @default.
W2896837514 hasAuthorship W2896837514A5083728713 @default.
W2896837514 hasConcept C104122410 @default.
W2896837514 hasConcept C105569014 @default.
W2896837514 hasConcept C119599485 @default.
W2896837514 hasConcept C121332964 @default.
W2896837514 hasConcept C124101348 @default.
W2896837514 hasConcept C127313418 @default.
W2896837514 hasConcept C127413603 @default.
W2896837514 hasConcept C151730666 @default.
W2896837514 hasConcept C153127940 @default.
W2896837514 hasConcept C187320778 @default.
W2896837514 hasConcept C202374169 @default.
W2896837514 hasConcept C2778668878 @default.
W2896837514 hasConcept C2779096232 @default.
W2896837514 hasConcept C41008148 @default.
W2896837514 hasConcept C43369102 @default.
W2896837514 hasConcept C51889082 @default.
W2896837514 hasConcept C57879066 @default.
W2896837514 hasConcept C62064638 @default.
W2896837514 hasConcept C6648577 @default.
W2896837514 hasConcept C76155785 @default.
W2896837514 hasConcept C78519656 @default.
W2896837514 hasConcept C78762247 @default.
W2896837514 hasConceptScore W2896837514C104122410 @default.
W2896837514 hasConceptScore W2896837514C105569014 @default.
W2896837514 hasConceptScore W2896837514C119599485 @default.
W2896837514 hasConceptScore W2896837514C121332964 @default.
W2896837514 hasConceptScore W2896837514C124101348 @default.
W2896837514 hasConceptScore W2896837514C127313418 @default.
W2896837514 hasConceptScore W2896837514C127413603 @default.
W2896837514 hasConceptScore W2896837514C151730666 @default.
W2896837514 hasConceptScore W2896837514C153127940 @default.
W2896837514 hasConceptScore W2896837514C187320778 @default.
W2896837514 hasConceptScore W2896837514C202374169 @default.
W2896837514 hasConceptScore W2896837514C2778668878 @default.
W2896837514 hasConceptScore W2896837514C2779096232 @default.
W2896837514 hasConceptScore W2896837514C41008148 @default.
W2896837514 hasConceptScore W2896837514C43369102 @default.
W2896837514 hasConceptScore W2896837514C51889082 @default.
W2896837514 hasConceptScore W2896837514C57879066 @default.
W2896837514 hasConceptScore W2896837514C62064638 @default.
W2896837514 hasConceptScore W2896837514C6648577 @default.
W2896837514 hasConceptScore W2896837514C76155785 @default.