Influence of capillary pressure, adsorption and dispersion on chemical flood transport phenomena

This is the second of two joint papers which study the influence of several physical properties on the transport phenomena in chemical flooding. To that aim, we use a previously reported ternary two-phase model into which representative physical properties have been incorporated as concentration-dep...

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Detalles Bibliográficos
Autores principales: Bidner, M.S., Porcelli, P.C.
Formato: JOUR
Materias:
Adsorption
Capillarity
Chemical flooding
Dispersion
Immiscible
Interfacial tension
Miscibility
Numerical grid
Numerical simulation
Phase behavior
Surfactant
Ternary
Computer simulation
Differential equations
Dispersions
Numerical analysis
Pressure effects
Solubility
Surface active agents
Surface tension
Capillary pressure
Ternary two phase model
Wettability
Flow of fluids
adsorption
capillarity
chemical flooding
dispersion
transport mechanism
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_01693913_v24_n3_p275_Bidner
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_01693913_v24_n3_p275_Bidner
record_format dspace
spelling todo:paper_01693913_v24_n3_p275_Bidner2023-10-03T15:07:04Z Influence of capillary pressure, adsorption and dispersion on chemical flood transport phenomena Bidner, M.S. Porcelli, P.C. Adsorption Capillarity Chemical flooding Dispersion Immiscible Interfacial tension Miscibility Numerical grid Numerical simulation Phase behavior Surfactant Ternary Adsorption Computer simulation Differential equations Dispersions Numerical analysis Pressure effects Solubility Surface active agents Surface tension Capillary pressure Chemical flooding Immiscible Phase behavior Ternary two phase model Wettability Flow of fluids adsorption capillarity chemical flooding dispersion transport mechanism This is the second of two joint papers which study the influence of several physical properties on the transport phenomena in chemical flooding. To that aim, we use a previously reported ternary two-phase model into which representative physical properties have been incorporated as concentration-dependent functions. Physical properties such as phase behavior, interfacial tensions, residual saturations, relative permeabilities, phase viscosities and wettability have been analyzed in the first paper. In this paper, we discuss the influence of capillary pressure, adsorption of the chemical component onto the rock and dispersion. Although arising from different phenomenological sources, these transport mechanisms show some similar effects on concentration profiles and on oil recovery. They are studied for systems with different phase behavior. A numerical analysis is also presented in order to determine the relevance of the number of grid blocks taken in the discretization of the differential equations. This numerical analysis provides useful guidelines for the selection of the appropriate numerical grid in each type of displacement. © 1996 Kluwer Academic Publishers. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_01693913_v24_n3_p275_Bidner
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Adsorption
Capillarity
Chemical flooding
Dispersion
Immiscible
Interfacial tension
Miscibility
Numerical grid
Numerical simulation
Phase behavior
Surfactant
Ternary
Adsorption
Computer simulation
Differential equations
Dispersions
Numerical analysis
Pressure effects
Solubility
Surface active agents
Surface tension
Capillary pressure
Chemical flooding
Immiscible
Phase behavior
Ternary two phase model
Wettability
Flow of fluids
adsorption
capillarity
chemical flooding
dispersion
transport mechanism
spellingShingle Adsorption
Capillarity
Chemical flooding
Dispersion
Immiscible
Interfacial tension
Miscibility
Numerical grid
Numerical simulation
Phase behavior
Surfactant
Ternary
Adsorption
Computer simulation
Differential equations
Dispersions
Numerical analysis
Pressure effects
Solubility
Surface active agents
Surface tension
Capillary pressure
Chemical flooding
Immiscible
Phase behavior
Ternary two phase model
Wettability
Flow of fluids
adsorption
capillarity
chemical flooding
dispersion
transport mechanism
Bidner, M.S.
Porcelli, P.C.
Influence of capillary pressure, adsorption and dispersion on chemical flood transport phenomena
topic_facet Adsorption
Capillarity
Chemical flooding
Dispersion
Immiscible
Interfacial tension
Miscibility
Numerical grid
Numerical simulation
Phase behavior
Surfactant
Ternary
Adsorption
Computer simulation
Differential equations
Dispersions
Numerical analysis
Pressure effects
Solubility
Surface active agents
Surface tension
Capillary pressure
Chemical flooding
Immiscible
Phase behavior
Ternary two phase model
Wettability
Flow of fluids
adsorption
capillarity
chemical flooding
dispersion
transport mechanism
description This is the second of two joint papers which study the influence of several physical properties on the transport phenomena in chemical flooding. To that aim, we use a previously reported ternary two-phase model into which representative physical properties have been incorporated as concentration-dependent functions. Physical properties such as phase behavior, interfacial tensions, residual saturations, relative permeabilities, phase viscosities and wettability have been analyzed in the first paper. In this paper, we discuss the influence of capillary pressure, adsorption of the chemical component onto the rock and dispersion. Although arising from different phenomenological sources, these transport mechanisms show some similar effects on concentration profiles and on oil recovery. They are studied for systems with different phase behavior. A numerical analysis is also presented in order to determine the relevance of the number of grid blocks taken in the discretization of the differential equations. This numerical analysis provides useful guidelines for the selection of the appropriate numerical grid in each type of displacement. © 1996 Kluwer Academic Publishers.
format JOUR
author Bidner, M.S.
Porcelli, P.C.
author_facet Bidner, M.S.
Porcelli, P.C.
author_sort Bidner, M.S.
title Influence of capillary pressure, adsorption and dispersion on chemical flood transport phenomena
title_short Influence of capillary pressure, adsorption and dispersion on chemical flood transport phenomena
title_full Influence of capillary pressure, adsorption and dispersion on chemical flood transport phenomena
title_fullStr Influence of capillary pressure, adsorption and dispersion on chemical flood transport phenomena
title_full_unstemmed Influence of capillary pressure, adsorption and dispersion on chemical flood transport phenomena
title_sort influence of capillary pressure, adsorption and dispersion on chemical flood transport phenomena
url http://hdl.handle.net/20.500.12110/paper_01693913_v24_n3_p275_Bidner
work_keys_str_mv AT bidnerms influenceofcapillarypressureadsorptionanddispersiononchemicalfloodtransportphenomena
AT porcellipc influenceofcapillarypressureadsorptionanddispersiononchemicalfloodtransportphenomena
_version_ 1807321157978816512

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