H(div)-conforming and discontinuous Galerkin approach for Herschel–Bulkley flow with density-dependent viscosity and yield stress


Abstract:

This paper presents a comprehensive study on Herschel–Bulkley flow, where the flow parameters are dependent on the density. The Herschel–Bulkley model is a generalized power-law model used to simulate viscoplastic fluids defined by a plasticity threshold. We consider the case where the plasticity threshold and the viscosity depend on the shear rate and fluid density. To analyze this model, we use a Huber regularization of the stress and propose an H(div)-conforming and discontinuous Galerkin (DG) numerical approximation for the coupled equations governing the flow. We discuss the stability and existence of discrete solutions and propose a semismooth Newton linearization for the numerical solution of the discretized system. Our numerical scheme is validated through several experiments that explore the behavior of Herschel–Bulkley flow under different conditions. The results demonstrate the robustness of our numerical method.

Año de publicación:

2024

Keywords:

  • Finite Element Method
  • H(div)-conforming discretization
  • Herschel–Bulkley model
  • Non-Newtoninan fluids
  • semismooth Newton methods

Fuente:

scopusscopus

Tipo de documento:

Article

Estado:

Acceso restringido

Áreas de conocimiento:

  • Análisis numérico
  • Modelo matemático
  • Dinámica de fluidos

Áreas temáticas de Dewey:

  • Análisis numérico
  • Mecánica de fluidos
  • Análisis
Procesado con IAProcesado con IA

Objetivos de Desarrollo Sostenible:

  • ODS 16: Paz, justicia e instituciones sólidas
  • ODS 10: Reducción de las desigualdades
  • ODS 17: Alianzas para lograr los objetivos
Procesado con IAProcesado con IA