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Abstract
Molar
balances of continuous and batch reacting systems with a simple reaction are
analyzed from the point of view of finding relationships between the thermodynamic
driving force and the chemical reaction rate. Special attention is focused on
steady state, which has been the core subject of previous similar work. It is
argued that such relationships should contain, besides the thermodynamic driving
force, also a kinetic factor, and are of a specific form for a specific
reacting system. More general analysis is provided by means of the non-equilibrium
thermodynamics of linear fluid mixtures. Then, the driving force can be
expressed either in Gibbs energy (affinity) form or on the basis of chemical
potentials. The relationships can be generally interpreted in terms of
force-resistance-flux.
