eq_full

Module Contents

Functions

eta_mix(p, T, phi)
set_Fe_ferric_part_coef(MO)
molar_ratio_to_mass_frac(molar_ratio[, total_mass_frac])
getfO2(p_bot, p, T, Fe_ratio, compo)
K_H(variables)
K_C(variables)
update_rad_pres(var)
getOLR()
flux_residual(MO, T)

Attributes

albedo
faint_young_sun
solar_const
stellar_irradiation
R_planet
g_planet
BSE_mass
EO_mass
T_pot
p_CMB
BSE
rho
alpha
cp
rho_vec
alpha_vec
cp_vec
MO
z_eq
p_eq
T_eq
part_coef
initial_molar_ferric_to_ferrous_iron_liq
total_iron_oxide_mass_fraction_BSE
to_frac
fO2_vec
to_spec
EO_mass
H_budet_EO
C2H_by_mass
H_mass_in_MO
C_mass_in_MO
pp0
atm
atm
equilibria
species_order
radiation
getOLR()
flux_residual(MO, T)
dEth_dTpot

eq_full.albedo = 0.2

eq_full.faint_young_sun = 0.75

eq_full.solar_const = 1367.6

eq_full.stellar_irradiation

eq_full.R_planet = 6371000

eq_full.g_planet = 9.798

eq_full.BSE_mass = 4e+24

eq_full.EO_mass = 1.4e+21

eq_full.T_pot = 3003

eq_full.p_CMB = 135000000000.0

eq_full.BSE

eq_full.rho

eq_full.alpha

eq_full.cp

eq_full.rho_vec

eq_full.alpha_vec

eq_full.cp_vec

eq_full.MO

eq_full.eta_mix(p, T, phi)

eq_full.z_eq = sfc

eq_full.p_eq

eq_full.T_eq

eq_full.part_coef = 0.94

eq_full.set_Fe_ferric_part_coef(MO)

eq_full.initial_molar_ferric_to_ferrous_iron_liq

eq_full.total_iron_oxide_mass_fraction_BSE

eq_full.molar_ratio_to_mass_frac(molar_ratio, total_mass_frac=total_iron_oxide_mass_fraction_BSE)

eq_full.to_frac = ['Fe3+', 'Fe2+']

eq_full.getfO2(p_bot, p, T, Fe_ratio, compo)

eq_full.fO2_vec

eq_full.K_H(variables)

eq_full.K_C(variables)

eq_full.to_spec = ['H', 'C']

eq_full.EO_mass = 1.4e+21

eq_full.H_budet_EO = 3

eq_full.C2H_by_mass = 0.5

eq_full.H_mass_in_MO

eq_full.C_mass_in_MO

eq_full.pp0

eq_full.atm

eq_full.atm

eq_full.equilibria

eq_full.species_order

eq_full.radiation

eq_full.update_rad_pres(var)

eq_full.getOLR()

eq_full.getOLR

eq_full.flux_residual(MO, T)

eq_full.flux_residual

eq_full.dEth_dTpot = 8.34e+27