FuelLib
Contents:
Fuel Property Prediction Model
Table of GCM properties
Equations for GCM properties
Equations for individual compound correlations
Kinematic viscosity
Latent heat of vaporization
Liquid molar volume
Density
Liquid specific heat capacity
Saturated vapor pressure
Surface tension
Thermal conductivity
Equations for mixture properties from GCM
Conventional mixing rules
Mixture density
Mixture kinematic viscosity
Mixture vapor pressure
Mixture surface tension
Mixture thermal conductivity
Validation
Single Component Fuels
Multi-Component Fuels
Fuel Blends
References
Source Code
FuelLib File Organization
Source Code Auto-Documentation
FuelLib
Export4Pele
Export4Converge
Tutorials
Introduction
Required Input files
Basic Usage
Exporting GCM Properties for Pele
Default Options
Additional Options
Exporting GCM-Based Mixture Properties for Converge
Default Options
Additional Options
FuelLib
Index
Index
C
|
D
|
E
|
F
|
K
|
L
|
M
|
N
|
V
|
X
|
Y
C
C2K() (in module FuelLib)
Cl() (FuelLib.fuel method)
Cp() (FuelLib.fuel method)
D
density() (FuelLib.fuel method)
droplet_mass() (in module FuelLib)
droplet_volume() (in module FuelLib)
E
Export4Converge
module
Export4Pele
module
export_converge() (in module Export4Converge)
export_pele() (in module Export4Pele)
F
fuel (class in FuelLib)
FuelLib
module
K
K2C() (in module FuelLib)
k_B (FuelLib.fuel attribute)
L
latent_heat_vaporization() (FuelLib.fuel method)
M
main() (in module Export4Converge)
(in module Export4Pele)
mass2X() (FuelLib.fuel method)
mass2Y() (FuelLib.fuel method)
mixing_rule() (in module FuelLib)
mixture_density() (FuelLib.fuel method)
mixture_dynamic_viscosity() (FuelLib.fuel method)
mixture_thermal_conductivity() (FuelLib.fuel method)
mixture_vapor_pressure() (FuelLib.fuel method)
mixture_vapor_pressure_antoine_coeffs() (FuelLib.fuel method)
module
Export4Converge
Export4Pele
FuelLib
molar_liquid_vol() (FuelLib.fuel method)
N
N_g1 (FuelLib.fuel attribute)
N_g2 (FuelLib.fuel attribute)
V
vec_to_str() (in module Export4Pele)
X
X2Y() (FuelLib.fuel method)
Y
Y2X() (FuelLib.fuel method)