FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1980996937> ?p ?o ?g. }

• W1980996937 endingPage "93" @default.
• W1980996937 startingPage "91" @default.
• W1980996937 abstract "This article, written by Special Publications Editor Adam Wilson, contains highlights of paper SPE 169025, ’A Study of Dynamic and Static Factors That Are Critical to Multiwell Reservoir Simulation of Liquids-Rich Shale Plays,’ by Carlos Miranda, SPE, and Huade Yang, Marathon, prepared for the 2014 SPE Unconventional Resources Conference - USA, The Woodlands, Texas, USA, 1-3 April. The paper has not been peer reviewed. Multiwell modeling of shale plays is not performed frequently, mainly for two reasons: The requirements to capture the behavior of multiple horizontal wells with multiple hydraulic fractures could be computationally prohibitive, and the wells in extremely low- permeability formations would have minimal interaction. Production data collected from shale plays, however, have shown that horizontal wells may interfere with each other during production. Therefore, in projects in which a main objective is well spacing or completion optimization, a comprehensive multiwell reservoir-simulation study is required. Introduction Single-well reservoir modeling has been used extensively to perform reservoir simulation in shale formations. In the appraisal phase of liquids-rich shale (LRS) reservoir systems, more detail may be required to capture petrophysical and stratigraphic features that can potentially affect production performance. During this phase, single-well conceptual models with a certain degree of detail can be sufficient for modeling purposes and economic analysis. However, if the presence of geological features (e.g., faults, fracture corridors, contrast of areal and vertical distribution of natural-fracture intensity) is believed to affect the economic evaluation of a certain area of interest, then a more-detailed geological model is required and multiple wells may have to be incorporated in the models. Performing multiwell, or sector, modeling of shale formations can present several challenges: An adequate description of permeability and water saturation may be difficult to attain because the original values are considerably altered in the stimulated-rock-volume (SRV) region after the fracturing treatments. The capture of the transient flow observed in LRS formations and the large pressure gradients around the fracture planes requires extensive grid refinement. The large drawdown necessary to produce from these ultralow-permeability formations can make pressure/ volume/temperature (PVT) sampling a poor representation of the original reservoir conditions. The interaction of hydraulic fractures with natural fractures or the development of fracture networks can be very difficult to model. Seismic The application of seismic for reservoir simulation of LRS plays goes beyond the classical reservoir-simulation workflow; seismic processing, inversion, and interpretation can provide important reservoir- property distributions that are key parameters for reservoir simulation and production analysis. A variety of seismic attributes can be used to predict the intensity and orientation of probable pre-existing natural fractures and the correlation with microseismic responses. This can be used to build discrete-fracture-network (DFN) models and patterns of hydraulic-fracture propagation and interaction with natural fractures and to constrain the SRV size and shape. Acoustic impedance can be used to generate porosity and pore-pressure distributions within a target shale region. The logic is that acoustic impedance is a linear function of density, and density can be correlated with porosity from a petrophysical model. Seismic interpretation calibrated with rock-property models is also used to provide rock-property distribution in a specific area to constrain and validate production from reservoir-simulation models." @default.
• W1980996937 created "2016-06-24" @default.
• W1980996937 creator A5019670635 @default.
• W1980996937 date "2014-07-01" @default.
• W1980996937 modified "2023-09-26" @default.
• W1980996937 title "Factors Critical to Multiwell Reservoir Simulation of Liquids-Rich Shale Plays" @default.
• W1980996937 doi "https://doi.org/10.2118/0714-0091-jpt" @default.
• W1980996937 hasPublicationYear "2014" @default.
• W1980996937 type Work @default.
• W1980996937 sameAs 1980996937 @default.
• W1980996937 citedByCount "0" @default.
• W1980996937 crossrefType "journal-article" @default.
• W1980996937 hasAuthorship W1980996937A5019670635 @default.
• W1980996937 hasConcept C127313418 @default.
• W1980996937 hasConcept C151730666 @default.
• W1980996937 hasConcept C153127940 @default.
• W1980996937 hasConcept C183250156 @default.
• W1980996937 hasConcept C2778668878 @default.
• W1980996937 hasConcept C2993020645 @default.
• W1980996937 hasConcept C548895740 @default.
• W1980996937 hasConcept C78762247 @default.
• W1980996937 hasConceptScore W1980996937C127313418 @default.
• W1980996937 hasConceptScore W1980996937C151730666 @default.
• W1980996937 hasConceptScore W1980996937C153127940 @default.
• W1980996937 hasConceptScore W1980996937C183250156 @default.
• W1980996937 hasConceptScore W1980996937C2778668878 @default.
• W1980996937 hasConceptScore W1980996937C2993020645 @default.
• W1980996937 hasConceptScore W1980996937C548895740 @default.
• W1980996937 hasConceptScore W1980996937C78762247 @default.
• W1980996937 hasIssue "07" @default.
• W1980996937 hasLocation W19809969371 @default.
• W1980996937 hasOpenAccess W1980996937 @default.
• W1980996937 hasPrimaryLocation W19809969371 @default.
• W1980996937 hasRelatedWork W1803330883 @default.
• W1980996937 hasRelatedWork W1992704399 @default.
• W1980996937 hasRelatedWork W2003365815 @default.
• W1980996937 hasRelatedWork W2003399420 @default.
• W1980996937 hasRelatedWork W2016114889 @default.
• W1980996937 hasRelatedWork W2033390796 @default.
• W1980996937 hasRelatedWork W2043343989 @default.
• W1980996937 hasRelatedWork W2087589110 @default.
• W1980996937 hasRelatedWork W2136050563 @default.
• W1980996937 hasRelatedWork W2217912292 @default.
• W1980996937 hasRelatedWork W2270925203 @default.
• W1980996937 hasRelatedWork W2343339548 @default.
• W1980996937 hasRelatedWork W2379673453 @default.
• W1980996937 hasRelatedWork W2527462448 @default.
• W1980996937 hasRelatedWork W2555492212 @default.
• W1980996937 hasRelatedWork W2887494861 @default.
• W1980996937 hasRelatedWork W2897942503 @default.
• W1980996937 hasRelatedWork W2976771103 @default.
• W1980996937 hasRelatedWork W2990240891 @default.
• W1980996937 hasRelatedWork W3146486923 @default.
• W1980996937 hasVolume "66" @default.
• W1980996937 isParatext "false" @default.
• W1980996937 isRetracted "false" @default.
• W1980996937 magId "1980996937" @default.
• W1980996937 workType "article" @default.