Skip to main content
A High-Resolution Finite-Difference Method for Simulating Two-Fluid, Viscoelastic Gel Dynamics
Journal of Non-Newtonian Fluid Mechanics
  • Grady Wright, Boise State University
  • Robert D. Guy, University of California - Davis
  • Jian Du, University of Utah
  • Aaron L. Fogelson, University of Utah
Document Type
Publication Date

An important class of gels are those composed of a polymer network and fluid solvent. The mechanical and rheological properties of these two-fluid gels can change dramatically in response to temperature, stress, and chemical stimulus. Because of their adaptivity, these gels are important in many biological systems, e.g. gels make up the cytoplasm of cells and the mucus in the respiratory and digestive systems, and they are involved in the formation of blood clots. In this study we consider a mathematical model for gels that treats the network phase as a viscoelastic fluid with spatially and temporally varying material parameters and treats the solvent phase as a viscous Newtonian fluid. The dynamics are governed by a coupled system of time-dependent partial differential equations which consist of transport equations for the two phases, constitutive equations for the viscoelastic stresses, two coupled momentum equations for the velocity fields of the two fluids, and a volume-averaged incompressibility constraint. We present a numerical method based on a staggered grid, second order finite-difference discretization of the momentum equations and a high-resolution unsplit Godunov method for the transport equations. The momentum and incompressibility equations are solved in a coupled manner with the Generalized Minimum Residual (GMRES) method using a multigrid preconditioner based on box-relaxation. We present results on the accuracy and robustness of the method together with an illustration of the interesting behavior of this gel model for the four-roll mill problem.

Copyright Statement

This is an author-produced, peer-reviewed version of this article. © 2009, Elsevier. Licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License ( The final, definitive version of this document can be found online at Journal of Non-Newtonian Fluid Mechanics, doi: 10.1016/j.jnnfm.2011.07.002

Citation Information
Grady Wright, Robert D. Guy, Jian Du and Aaron L. Fogelson. "A High-Resolution Finite-Difference Method for Simulating Two-Fluid, Viscoelastic Gel Dynamics" Journal of Non-Newtonian Fluid Mechanics (2011)
Available at: