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Fiber suspensions 1 Free-surface flow 1 Galerkin method 1 Hermite finite elements 1 Kinetic theory 1 Mapping functions 1 Micro–macro approach 1 Reversible network models 1 Stick-slip 1 Stream-Tube method 1 Stream-tube method 1
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Undetermined 2
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Article 2
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Ammar, A. 1 Chinesta, F. 1 Clermont, J.R. 1 Clermont, Jean-Robert 1 Mahmoud, Ahmad 1 Mokdad, B. 1 Normandin, M. 1 Normandin, Magdeleine 1 Radu, Dana Grecov 1
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Mathematics and Computers in Simulation (MATCOM) 2
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RePEc 2
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A fully deterministic micro–macro simulation of complex flows involving reversible network fluid models
Mokdad, B.; Ammar, A.; Normandin, M.; Chinesta, F.; … - In: Mathematics and Computers in Simulation (MATCOM) 80 (2010) 9, pp. 1936-1961
flow kinematics is solved by applying the Stream-Tube method. …–Planck equation. In this paper, a micro–macro approach based on the separated representation introduced in [2,3] with the Stream-Tube … method [10–12,21,22] is implemented to study the main features of fiber and polymer networks solutions in complex flows. The …
Persistent link: https://www.econbiz.de/10010870183
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Finite element and stream-tube formulations for flow computations—two-dimensional applications
Normandin, Magdeleine; Radu, Dana Grecov; Mahmoud, Ahmad; … - In: Mathematics and Computers in Simulation (MATCOM) 60 (2002) 1, pp. 129-134
This paper presents a velocity/pressure/function-of-transformation formulation to simulate two- and three-dimensional flows by a finite element Galerkin technique associated to stream-tube analysis. The latter method involves an unknown transformation. Applications are given for plane and...
Persistent link: https://www.econbiz.de/10011050736
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