propertyPageMaterial

material_Density

MFloat MaterialState::m_particleDensity
default = -1

Sets the reference density for the different phases.
Keywords: PARTICLE, FINITE VOLUME, MATERIAL

material_Temperature

MFloat MaterialState::m_particleTemperature
default = 293.15K

Sets the reference density for the different phases.
Keywords: PARTICLE, FINITE VOLUME

material_TemperatureRange

MFloat MaterialState::m_temperatureLower
default = 0.1

Sets the sets the boundaries of the temperature region.
Keywords: PARTICLE, FINITE VOLUME

material_CP

MFloat MaterialState::m_cp
default = 1005

Sets the heat capacity of the different species.
Keywords: PARTICLE, FINITE VOLUME

sprayLiquidSurfaceTension

MFloat MaterialState::m_spraySurfaceTension
default = 1

Surface tension of the sprayed liquid
Keywords: PARTICLE, SPRAY

material_BPRefPressure

MFloat MaterialState::m_bpRefPressure
default = 1bar

Set the reference pressure for the Clausius-Clapeyron equation
Keywords: PARTICLE, FINITE VOLUME

boilingPoint

MFloat MaterialState::m_boilingPoint
default = 58K (oxygen)

Sets the boiling point of the different species.
Keywords: PARTICLE, FINITE VOLUME

material_particleDensity

MFloat MaterialState::m_particleDensity
default = {0.0, 0.0, 0.0, 0.0}

Sets the coefficients for the 3rd Degree polynom equation for the particle density.
Keywords: PARTICLE, FINITE VOLUME, MATERIAL

material_cp

MFloat MaterialState::m_cp
default = {0.0, 0.0, 0.0, 0.0}

Sets the coefficients for the 3rd Degree polynom equation for the heat capacity.
Keywords: PARTICLE, FINITE VOLUME, MATERIAL

material_My

MFloat MaterialState::m_my
default = {0.0, 0.0, 0.0, 0.0}

Sets the coefficients for the 3rd Degree polynom equation for the dynamic viscosity.
Keywords: PARTICLE, FINITE VOLUME, MATERIAL

material_ThCond

MFloat MaterialState::m_thCond
default = {0.0, 0.0, 0.0, 0.0}

Sets the coefficients for the 3rd Degree polynom equation for the thermal conductivity.
Keywords: PARTICLE, FINITE VOLUME, MATERIAL

material_DiffC

MFloat MaterialState::m_diffC
default = {0.0, 0.0, 0.0, 0.0}

Sets the coefficients for the 3rd Degree polynom equation for the diffusion coefficient.
Keywords: PARTICLE, FINITE VOLUME, MATERIAL

material_LH_ev

MFloat MaterialState::m_lH_ev
default = {0.0, 0.0, 0.0, 0.0}

Sets the coefficients for the 3rd Degree polynom equation for the latent heat of evaporation.
Keywords: PARTICLE, FINITE VOLUME, MATERIAL

material_SurfaceTension

MFloat MaterialState::m_surfaceTension
default = {1.0, 0.0, 0.0, 0.0}

Sets the coefficients for the 3rd Degree polynom equation for the Surface Tension.
Keywords: PARTICLE, FINITE VOLUME, MATERIAL

material_LiquidMy

MFloat MaterialState::m_liquidMy
default = {0.0, 0.0, 0.0, 0.0}

Sets the coefficients for the 3rd Degree polynom equation for the dynamic viscosity of the liquid phase.
Keywords: PARTICLE, FINITE VOLUME, MATERIAL

material_LiquidThCond

MFloat MaterialState::m_liquidThCond
default = {0.0, 0.0, 0.0, 0.0}

Sets the coefficients for the 3rd Degree polynom equation for the thermal conductivity of the liquid phase.
Keywords: PARTICLE, FINITE VOLUME, MATERIAL

fluidThCond

MFloat MaterialState::m_fluidThCond
default = {3.227E-3, 8.3894E-5, -1.9858E-8, 0.0}

Sets the coefficients for the 3rd Degree polynom equation for the thermal conductivity of the fluid/continous phase.
Keywords: PARTICLE, FINITE VOLUME, MATERIAL

Pr

MFloat MaterialState::m_Pr
default = {0.815, -0.0004958, 0.0000004514, 0.0}

Sets the coefficients for the 3rd Degree polynom equation for the Pr-number of the fluid/continous phase.
Keywords: PARTICLE, FINITE VOLUME, MATERIAL

m_molarWeightRatio

MFloat MaterialState::m_molarWeightRatio
default = 1

Non-dimensional molar weight ratio: disperse-phase/continous-phase (i.e. M_p / M_ref)
Keywords: PARTICLE, FINITE VOLUME

viscosityLaw

MString viscosityLaw
default = SUTHERLAND

other options: CONSTANT Viscosity law used for the continuous phase
Keywords: PARTICLE, FINITE VOLUME

referenceTemperature

MFloat referenceTemperature
default = 273.15

Reference temperature \( T_{\mathrm{ref}}\) Used to scale the Sutherland's constant as follows: \( S/T_{\mathrm{ref}} \) possible values are:

• Non-negative floating point values

Keywords: LPT, VARIABLES

sutherlandConstant

MFloat m_sutherlandConstant
default = 110.4 K

Sutherland's constant. Used by Sutherland's law. possible values are:

• Non-negative floating point values

Keywords: LPT, VARIABLES

ambientViscosity

MFloat MaterialState::m_nu
default = none

Constant viscosity of the continuous phase
Keywords: PARTICLE, FINITE VOLUME

molarMass

MFloat MaterialState::m_molarMass
default = 0.02896 kg/mol (air)

Sets the molar weights of the different species.
Keywords: PARTICLE, FINITE VOLUME

CP

MFloat MaterialState::m_airCp
default = 1005

Sets the heat capacity of the different species.
Keywords: PARTICLE, FINITE VOLUME