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The published article of the Combustion Toolbox is now available on ResearchGate!
Combustion Toolbox v1.2.9
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  • Home
  • Installation
  • Tutorials
    • Basics
      • Importing packages and classes
      • Accessing the databases
      • Defining chemical system
      • Defining initial state of a mixture
      • Defining the caloric gas model
    • Chemical equilibrium
      • Chemical equilibrium at constant temperature and pressure
      • Chemical equilibrium at constant enthalpy and pressure
    • Shock waves
      • Incident shock waves
      • Oblique shock waves
    • Detonation waves
      • Chapman–Jouguet detonation waves
    • Rockets
  • Examples
    • Chemical equilibrium
      • Chemical equilibrium at constant temperature and pressure
      • Chemical equilibrium at constant temperature and volume
      • Chemical equilibrium at constant enthalpy and pressure
      • Chemical equilibrium at constant enthalpy and pressure for complete and incomplete combustion
      • Chemical equilibrium at constant enthalpy and pressure for humid air
      • Chemical equilibrium at constant enthalpy and pressure for natural gas
      • Chemical equilibrium at constant enthalpy and pressure with different species temperature
      • Chemical equilibrium at constant enthalpy and pressure for LH2/LOX propellants
      • Chemical equilibrium at constant internal energy and volume
      • Chemical equilibrium at constant entropy and pressure
      • Chemical equilibrium at constant entropy and volume
      • Chemical equilibrium composition of WASP-43b atmosphere
    • Shock waves
      • Incident shock waves for different pre-shock velocities
      • Incident shock waves with ionization effects
      • Incident shock waves for different Mach numbers
      • Incident shock waves using different thermodynamic models
      • Incident and reflected shock waves for different pre-shock velocities
      • Incident shock waves for different wave angles
      • Incident shock waves for different deflection angles
      • Incident and reflected shock waves for a given deflection angle
      • Incident shock polar diagrams for different pre-shock Mach numbers
      • Incident and reflectect shock polar diagrams
      • Limit regular reflection of shock waves for different pre-shock velocities
      • Limit regular reflection of shock waves considering different altitudes and thermodynamic models
      • Prandtl-Meyer expansion waves
      • Jump conditions for incident shock waves for different pre-shock velocities
      • Jump conditions for incident shock waves using different thermodynamic models
    • Detonation waves
      • Chapman Jouguet detonations
      • Incident and reflected Champman-Jouguet detonation waves
      • Overdriven detonation waves
      • Incident and reflected overdriven detonation waves
      • Underdriven detonation waves
      • Incident and reflected underdriven detonation waves
      • Overdriven and underdrive detonation waves
      • Oblique detonation waves for different wave angles
      • Oblique detonation waves for different deflection angles
      • Incident detonation polar diagrams for different drive factors
    • Rockets
      • Rocket performance considering the infinite-area-chamber approximation
      • Rocket performance considering the finite-area-chamber approximation
    • Shock-turbulence interaction
      • Shock-Turbulence Interaction with vortical disturbances
      • Shock-Turbulence Interaction with vortical and density-entropic disturbances
      • Shock-Turbulence Interaction with acoustic disturbances
      • Shock-Turbulence Interaction with compressible turbulence (vortical, entropic, and acoustic disturbances)
    • Turbulence
      • Helmholtz decomposition and energy spectra analysis of a turbulent field
  • Validations
  • Publications

Documentation

  • API Documentation
    • Common classes
    • Database classes
    • Core classes
    • Thermochemical equilibrium module
    • Shocks and detonations module
    • Rocket module
    • Shock-Turbulence Interaction module
    • Turbulence module
    • Utilities
  • Databases
  • GUI
  • References
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Turbulence#

Here we have an example included in the Combustion Toolbox for analyzing turbulence.

Contents

  • Helmholtz decomposition and energy spectra analysis of a turbulent field
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Helmholtz decomposition and energy spectra analysis of a turbulent field
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Shock-Turbulence Interaction with compressible turbulence (vortical, entropic, and acoustic disturbances)
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