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Extensions of the code are already underway to add the following features to the code
 
Extensions of the code are already underway to add the following features to the code
  
*floating bodies to the code
+
*floating bodies to the SPHYSICS code
*parallelize the code
+
*parallelize the SPHYSICS code
*couple to long wave propagation model  
+
*couple SPHYSICS to long wave propagation model  
  
  
  
 
Oh, and England are never going to win the world cup!
 
Oh, and England are never going to win the world cup!

Revision as of 16:29, 29 June 2007

SPHYSICS - SPH Free-surface Flow Solver

Open-Source Smoothed Particle Hydrodynamics code

  1. Welcome to SPHYSICS
  2. Members of SPHYSICS
  3. Contributors
  4. Downloads
  5. Documentation
  6. Visualization & Images
  7. SPHYSICS Forum
  8. Screenshots
  9. Future Developments
  10. Help and Info about SPHYSICS website


The SPHYSICS Code

SPHYSICS is a Smoothed Particle Hydrodynamics (SPH) code inspired by the formulation of Monaghan (1992) developed jointly by researchers at the Johns Hopkins University, the University of Vigo, the University of Manchester and the University of Rome La Sapienza. This code has now been officially released as version 1.0.

This code version is the a basic version and incorporates the following features:

  • 2-D and 3-D versions
  • Linked lists for fast particle connectivity
  • Choice of two types of solid boundary condition: dynamic and repulsive force
  • Periodic open boundary conditions
  • Choice of:
    • Artificial Viscosity
    • Laminar Viscosity
    • Sub-Particle Scale (SPS) Turbulence Model
  • Different Types of Moving Objects (forced motion only)
    • Wavemaker
    • Sliding Wedge
    • Moving Gate
  • Visualization routines using Matlab or ParaView


The code has been developed over a number of years primarily to study free-surface flow phenomena where Eulerian methods can be difficult to apply, such as waves, impact on dams, off-shore. Furthermore, the meshfree technique facilitates the simulation of highly distorted fluids/bodies.

Future Developments

Extensions of the code are already underway to add the following features to the code

  • floating bodies to the SPHYSICS code
  • parallelize the SPHYSICS code
  • couple SPHYSICS to long wave propagation model


Oh, and England are never going to win the world cup!