\symbline{c_i}{Concentration of component $i$}{\mol\per\cubic\meter}
\symbline{D_T}{Thermal diffusion coefficient}{\square\meter\per\kelvin\per\second}
\symbline{D_i}{Interdiffusion coefficient}{\square\meter\per\second}
\symbline{G}{Gibbs energy}{\joule}
\symbline{G_m}{Molar Gibbs energy}{\joule\per\mol}
\symbline{H}{Enthalpy}{\joule}
\symbline{H_i}{Molar enthalpy of component $i$}{\joule\per\mole}
\symbline{h}{Enthalpy density}{\joule\per\cubic\meter}
\symbline{h_i}{Partial molar enthalpy of component $i$}{\joule\per\mol}
\symbline{\Vec{J}_i}{Diffusional flux of component $i$}{\mol\per\square\meter\per\second}
\symbline{\Vec{J}_q}{Diffusional heat flux}{\joule\per\square\meter\per\second}
\symbline{\Vec{J}_q}{Diffusional, measurable heat flux}{\joule\per\square\meter\per\second}
\symbline{\Vec{J}_s}{Diffusional entropy flux}{\joule\per\square\meter\per\second\per\kelvin}
\symbline{L_{}{Phenomenological coefficients}{-}
\symbline{n_i}{Moles of component $i$}{\mol}
\symbline{n_T}{Total number of moles in the system}{\mol}
\symbline{n_i}{Moles of component $i$}{\mol}
\symbline{r_j}{Reaction rate of reaction $j$}{\mol\per\second\per\cubic\meter}
\symbline{S}{Entropy}{\joule\per\kelvin}
\symbline{S_i}{Molar entropy of component $i$}{\joule\per\mol\per\kelvin}
\symbline{s}{Entropy density}{\joule\per\cubic\meter\per\kelvin}
\symbline{s_T}{Soret coefficient}{\per\kelvin}
\symbline{T}{Absolute temperature}{\kelvin}
\symbline{U}{Internal energy}{\joule}
\symbline{u}{Internal energy density}{\joule\per\cubic\meter}
\symbline{\Vec{v}}{Fluid velocity}{\meter\per\second}
\symbline{V}{Volume}{\cubic\meter}
\symbline{v_i}{Partial molar volume of component $i$}{\cubic\meter\per\mol}
\symbline{x_{}{Mole fraction of component $i,j,k,m$ respectivly}{-}
\symbline{X^0}{Variable $X$ in the ideal gas state}{-}
\symbline{\alpha_T}{Thermal diffusion factor}{-}
\symbline{\mu_i}{Chemical potential of component $i$}{\joule\per\mol}
\symbline{\nu_i^j}{Stochiometric coefficient of component $i$ in reaction $j$}{-}
\symbline{\sigma}{Local entropy production}{\joule\per\cubic\meter\per\second\per\kelvin}