PeleC
0.1
  • Introduction
  • Equations
  • Numerical Treatment and Algorithms
  • Getting Started
  • Boundary Conditions
  • Geometry treatment in PeleC
  • LES and Hybrid LES/DNS Support
  • Correctness - Verification and Validation
    • Verification of PeleC
    • Verification of EB PeleC
    • Validation of PeleC
  • PelePhysics
  • Development Reference
PeleC
  • Correctness - Verification and Validation
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Correctness - Verification and Validation

PeleC undergoes significant testing to ensure correct operation. Synthetic tests are used to verify expected numerical performance Verification. Correctness of the results is established through a collection of physically meaningful tests that are used as the basis for a regression test suite Validation.

  • Verification of PeleC
    • Building and running MMS
    • Testing the Euler equations
    • Testing the compressible Navier-Stokes equations
    • Testing the adaptive mesh refinement algorithm
    • Testing the constant Smagorinsky Large Eddy Simulation model
  • Verification of EB PeleC
    • C1. Method of manufactured solutions for EB
    • C3. Zero dimensional ignition with embedded boundaries
    • C7. Sod shock tube in rotated channel with AMR
    • C8. Multi-species shock tube in a rotated channel with AMR
    • C9. Acoustic wave in cylindrical channel
    • C10. Hagen–Poiseuille flow
    • C12. Smooth periodic problem
    • C13. Supersonic vortex study
    • C14. Shock interacting with a ramp
    • Converging Nozzle Case
  • Validation of PeleC
    • Decay of homogeneous isotropic turbulence
    • Taylor-Green vortex breakdown
    • Reacting Taylor-Green vortex breakdown
    • Counter flow diffusion flame
    • Counter flow premixed flame
    • Flame-Vortex interaction
    • Sandia Flame D
    • Premixed ignition kernel in isotropic turbulence
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