Skip to content

GitLab

  • Menu
Projects Groups Snippets
    • Loading...
  • Help
    • Help
    • Support
    • Community forum
    • Submit feedback
    • Contribute to GitLab
  • Sign in
  • W waLBerla
  • Project information
    • Project information
    • Activity
    • Labels
    • Planning hierarchy
    • Members
  • Repository
    • Repository
    • Files
    • Commits
    • Branches
    • Tags
    • Contributors
    • Graph
    • Compare
  • Issues 3
    • Issues 3
    • List
    • Boards
    • Service Desk
    • Milestones
  • Merge requests 0
    • Merge requests 0
  • CI/CD
    • CI/CD
    • Pipelines
    • Jobs
    • Schedules
  • Deployments
    • Deployments
    • Environments
    • Releases
  • Monitor
    • Monitor
    • Incidents
  • Analytics
    • Analytics
    • Value stream
    • CI/CD
    • Repository
  • Wiki
    • Wiki
  • Snippets
    • Snippets
  • Activity
  • Graph
  • Create a new issue
  • Jobs
  • Commits
  • Issue Boards
Collapse sidebar
  • Lukas Werner
  • waLBerla
  • Issues
  • #10

Closed
Open
Created Apr 14, 2020 by Lukas Werner@yw25ynewMaintainer4 of 7 tasks completed4/7 tasks

Introduce meshes to MESA-PD (and its LBM coupling)

The finite goal is to simulate a mesh penetrating a bed of spheres in fluid.

Subtasks MESA-PD:

  • ConvexPolyhedron-Shape containing a mesh
  • VTK output of ConvexPolyhedrons
  • Basic Time Integration of ConvexPolyhedron particle
  • Collision detection for ConvexPolyhedrons (ie. migrate Rhein simulation to MESA-PD)
  • (Mini-)Rhein simulation using MESA-PD
  • Properly separate mesh and MESA-PD module

Subtasks LBM:

  • Simulation with submerged mesh colliding with particles
  • more TBD
Edited Apr 15, 2020 by Lukas Werner
Assignee
Assign to
Time tracking