Template:Transport Properties Data Section
These properties are related to the transport properties of the stream, e.g. viscosity, etc. These will only be shown if the user has chosen to display the Transport Properties on the Plant Model - Views tab page or from the [[Material_{{{type}}}_Section#Qo_.28Qxxxx.29_Tab_Page|Include Properties]] dropdown list on the first page of the material {{{type}}} section. |- |VViscosity || font style="background: #ebebeb" |Calc || (Dynamic) Viscosity of the vapour phase |- |LViscosity || font style="background: #ebebeb" |Calc || (Dynamic) Viscosity of the liquid phase |- |VKinematicVisc || font style="background: #ebebeb" |Calc || Kinematic Viscosity of the vapour phase = Dynamic Viscosity of vapour phase (VViscosity) / Density of vapour phase (VRho) |- |LKinematicVisc || font style="background: #ebebeb" |Calc || Kinematic Viscosity of the liquid phase = Dynamic Viscosity of liquid phase (LViscosity) / Density of liquid phase (LRho) |- |VThermalCond || font style="background: #ebebeb" |Calc || Thermal Conductivity of the vapour phase |- |LThermalCond || font style="background: #ebebeb" |Calc || Thermal Conductivity of the liquid phase |- |VPrandtlNo || font style="background: #ebebeb" |Calc || Prandtl’s number for the vapour phase = heat capacity (VmsCp@T) * dynamic viscosity (VViscosity) / thermal conductivity (VThermalCond) |- |LPrandtlNo || font style="background: #ebebeb" |Calc || Prandtl’s number for the liquid phase = heat capacity (LmsCp@T) * dynamic viscosity (LViscosity) / thermal conductivity (LThermalCond) |- |LSurfaceTens || font style="background: #ebebeb" |Calc || Surface Tension of the liquid phase. |- | colspan="3" font style="background: #ebebeb" |IF97 |- |WaterViscosity || font style="background: #ebebeb" |Calc || The viscosity of pure water at the {{{UnitOp}}} temperature and pressure as calculated by IF97. |- |SteamViscosity || font style="background: #ebebeb" |Calc || The viscosity of pure steam at the {{{UnitOp}}} temperature and pressure as calculated by IF97.