mus_convertFac_type Derived Type

type, public :: mus_convertFac_type

This type contains the converstion factor for derived variables from lattice to physical.\n Their inverses can be used to convert physical to lattice units use reference density to parmeterize kg and reference mole density to parmeterize mol

Inherited by

Components

Type	Visibility	Attributes		Name		Initial
real(kind=rk),	private		::	length			length (m) = dx
real(kind=rk),	private		::	time			time (s) = dt
real(kind=rk),	private		::	vel			velocity(m/s) = dx/dt
real(kind=rk),	private		::	visc			kinematic viscosity(m^2/s) = dx^2/dt
real(kind=rk),	private		::	viscDyna			Dynamic viscosity (Pa s) = kg/m/s
real(kind=rk),	private		::	accel			acceleration(m/s^2) = dx/dt^2
real(kind=rk),	private		::	force			Force(N)(kg m/s^2) = rho0*dx^4/dt^2
real(kind=rk),	private		::	body_force			Force per unit volume (N/m^3)(kg/s^2/m^2) = rho0*dx/dt^2
real(kind=rk),	private		::	press			Pressure(N/m^2)(kg/m/s^2) = rho0*dx^2/dt^2
real(kind=rk),	private		::	strainRate			Strain Rate (1/s) = 1/dt
real(kind=rk),	private		::	energy			Energy (N-m) (kgm^2/s^2) = rho0dx^5/dt^2
real(kind=rk),	private		::	chargeDens			mole density(mol/m^3) = mole0/dx^3 Charge density (C/m^3) = Coulomb0/dx^3
real(kind=rk),	private		::	currentDens			Current density (C/s/m^2) = Coulomb0/dt/dx^2
real(kind=rk),	private		::	moleFlux			mole flux(mol/m^2/s) = moleDen0*dx/dt
real(kind=rk),	private		::	flux			mass flux(kg/m^2/s) = rho0*dx/dt
real(kind=rk),	private		::	diffusivity			diffusivity(m^2/s) = dx^2/dt
real(kind=rk),	private		::	faraday			faraday (C/mol) = coulomb0/moleDens0/dx^3
real(kind=rk),	private		::	gasConst			gas constant (J/mol/K) (N m/mol/K) (kg m^2/s^2/mol/K) = rho0*dx^5/dt^2/mole0/temp0
real(kind=rk),	private		::	potential			Potential (V) (kg m^2/(C*S^2))