.Chemical.Obsolete.Components.GasSolubility

K_H =x_L / x_g 

Henry's coefficient, Raoult's coefficient

Δ_solG = Δ_fG_L - Δ_fG_g = Δ_solH - T·Δ_solS = -R·T·log(K_H· (f_L / f_g))

molar Gibb's energy of the dissolition

Δ_solH = Δ_fH_L - Δ_fH_g

molar enthalpy of the dissolition

Δ_solS = Δ_fS_L - Δ_fS_g = k·log(Δ_solω)

molar entropy of the dissolition

x_L

mole fraction of the substance in the liquid

x_g

mole fraction of the substance in the gas

f_L

activity coefficient of the substance in the liquid

f_g

activity coefficient of the substance in the gas

Δ_fH_L

molar enthalpy of formation of the substance in the liquid

Δ_fH_g

molar enthalpy of formation of the substance in the gas

Δ_fS_L

molar entropy of formation of the substance in the liquid

Δ_fS_g

molar entropy of formation of the substance in the gas

Δ_solG

molar Gibbs energy of dissolvation of the substance in the liquid

Δ_solω

change of number of microstates of particles by dissolution