ODT

cfdmodelopen_source

One-Dimensional Turbulence Model

ODT
ODT

Developed by Dr. Alan Kerstein in the late 1990s, the One-Dimensional Turbulence (ODT) model is a stochastic approach to simulate turbulent flows by reducing the complexity to a single spatial dimension. This model significantly decreases computational costs while maintaining an accurate depiction of turbulent energy transfer and dissipation. Learn more about the ODT model.

Software

The ODT software enabled here is developed by Sutherland research group at the University of Utah.

Code Repository

Key Features of ODT

  • Spatial Dimension Reduction: Simplifies the spatial complexity of turbulence simulations to one dimension, enhancing computational efficiency.
  • Stochastic Triplet Maps: Utilizes random processes to mimic the interactions within turbulent eddies, capturing the essential dynamics of turbulence.
  • Low Computational Cost: Reduces the computational burden, enabling more extensive and frequent simulations.

Applications of the ODT Model

ODT has been successfully applied in a variety of contexts, demonstrating its versatility and effectiveness:

  • Combustion: Studies turbulent combustion processes to enhance understanding of flame stability and pollutant formation.
  • Atmospheric Flows: Models complex atmospheric phenomena including cloud microphysics and pollutant dispersion.
  • Turbulent Mixing: Analyzes mixing in jets, shear layers, and stratified flows, providing insights into these complex processes.
  • Industrial Optimization: Improves processes in chemical reactors, heat exchangers, and other applications where turbulence is crucial.

Tags for ODT

  • Turbulence Simulation
  • Computational Fluid Dynamics
  • Stochastic Modeling
  • Reduced Dimension Simulation
  • Energy Transfer Modeling