Examples

Note

Please note that this website is currently under development. In the meantime, we have provided a collection of examples already included in the Combustion Toolbox repository for your convenience.

Combustion Toolbox can be used through:

• the user-friendly Graphic User Interface (GUI),

• the desktop environment (plain code mode).

Here we have a collection of examples included in the Combustion Toolbox using the desktop environment.

Contents

• 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