G. Panasenko, K. Pileckas, B. Vernescu, “Steady state non-Newtonian flow in thin tube structure: equation on the graph”, Algebra i Analiz, 2021, Volume 33, Issue 2,Pages <nobr>197

This article is cited in 5 papers

Research Papers

Steady state non-Newtonian flow in thin tube structure: equation on the graph

G. Panasenko^ab, K. Pileckas^b, B. Vernescu^c

^a University of Lyon, UJM, Institute Camille Jordan UMR CNRS 5208, 23 rue P. Michelon, 42023, Saint-Etienne, France
^b Faculty of Mathematics and Informatics, Institute of Applied Mathematics, Vilnius University, Naugarduko Str., 24, Vilnius, 03225 Lithuania
^c Department of Mathematical Sciences, Worcester Polytechnic Institute, Worcester MA01609, USA

Abstract: The dimension reduction for the viscous flows in thin tube structures leads to equations on the graph for the macroscopic pressure with Kirchhoff type junction conditions in the vertices. Nonlinear equations on the graph generated by the non-Newtonian rheology are treated here. The existence and uniqueness of a solution of this problem is proved. This solution describes the leading term of an asymptotic analysis of the stationary non-Newtonian fluid motion in a thin tube structure with no-slip boundary condition on the lateral boundary.

Keywords: non-Newtonian flow, strain rate dependent viscosity, asymptotic dimension reduction, quasi-Poiseuille flows, equation on the graph.

Received: 09.11.2020

Language: English