Existence of solution for a micro-macro model of polymeric fluid: The FENE model

Benjamin Jourdain; Tony Lelièvre; Claude Le Bris

doi:10.1016/S0022-1236(03)00183-6

Existence of solution for a micro-macro model of polymeric fluid: The FENE model

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Abstract

We analyse a non-linear micro-macro model of polymeric fluids in the case of a shear flow. More precisely, we consider the FENE dumbbell model, which models polymers by nonlinear springs, accounting for the finite extensibility of the polymer chain. We prove the existence of a unique solution to the stochastic differential equation which rules the evolution of a representative polymer in the flow and next deduce a local-in-time existence and uniqueness result on the system coupling the stochastic differential equation and the momentum equation on the fluid.

Original language	English
Pages (from-to)	162-193
Number of pages	32
Journal	Journal of Functional Analysis
Volume	209
Issue number	1
DOIs	https://doi.org/10.1016/S0022-1236(03)00183-6
Publication status	Published - 1 Apr 2004

Keywords

CONNFFESSIT method
Cauchy problems
FENE dumbbell
Polymeric fluids
Stochastic differential equation

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10.1016/S0022-1236(03)00183-6

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abstract = "We analyse a non-linear micro-macro model of polymeric fluids in the case of a shear flow. More precisely, we consider the FENE dumbbell model, which models polymers by nonlinear springs, accounting for the finite extensibility of the polymer chain. We prove the existence of a unique solution to the stochastic differential equation which rules the evolution of a representative polymer in the flow and next deduce a local-in-time existence and uniqueness result on the system coupling the stochastic differential equation and the momentum equation on the fluid.",

keywords = "CONNFFESSIT method, Cauchy problems, FENE dumbbell, Polymeric fluids, Stochastic differential equation",

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AU - Lelièvre, Tony

AU - Le Bris, Claude

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Y1 - 2004/4/1

N2 - We analyse a non-linear micro-macro model of polymeric fluids in the case of a shear flow. More precisely, we consider the FENE dumbbell model, which models polymers by nonlinear springs, accounting for the finite extensibility of the polymer chain. We prove the existence of a unique solution to the stochastic differential equation which rules the evolution of a representative polymer in the flow and next deduce a local-in-time existence and uniqueness result on the system coupling the stochastic differential equation and the momentum equation on the fluid.

AB - We analyse a non-linear micro-macro model of polymeric fluids in the case of a shear flow. More precisely, we consider the FENE dumbbell model, which models polymers by nonlinear springs, accounting for the finite extensibility of the polymer chain. We prove the existence of a unique solution to the stochastic differential equation which rules the evolution of a representative polymer in the flow and next deduce a local-in-time existence and uniqueness result on the system coupling the stochastic differential equation and the momentum equation on the fluid.

KW - CONNFFESSIT method

KW - Cauchy problems

KW - FENE dumbbell

KW - Polymeric fluids

KW - Stochastic differential equation

UR - https://www.scopus.com/pages/publications/12144286593

U2 - 10.1016/S0022-1236(03)00183-6

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JO - Journal of Functional Analysis

JF - Journal of Functional Analysis

IS - 1

ER -

Existence of solution for a micro-macro model of polymeric fluid: The FENE model

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Keywords

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