Gibbs-Duhem integration

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History

The so-called Gibbs-Duhem Integration referes to a number of methods that couple molecular simulation techniques with thermodynamic equations in order to draw phase coexistence lines.

The method was proposed by Kofke (Ref 1-2).

Basic Features

Consider two thermodynamic phases: ${\displaystyle \alpha ,\beta }$, at thermodynamic equilibrium at certain conditions. The thermodynamic equilibrium implies:

• Equal temperature in both phases: ${\displaystyle T=T_{\alpha }=T_{\beta }}$, i.e. thermal equilbirum.
• Equal pressure in both phases ${\displaystyle p=p_{\alpha }=p_{\beta }}$, i.e. mechanical equilbrium.
• Equal chemical potentials for the components ${\displaystyle \mu _{i}=\mu _{i\alpha }=\mu _{i\beta }}$, i.e. material equilibrium.

In addition if we are dealing with a statistical mechanics model, with certain parameters that we can represent as ${\displaystyle \lambda }$ , the model should be the same in both phases.

References

1. David A. Kofke, Gibbs-Duhem integration: a new method for direct evaluation of phase coexistence by molecular simulation, Mol. Phys. 78 , pp 1331 - 1336 (1993)
2. David A. Kofke, Direct evaluation of phase coexistence by molecular simulation via integration along the saturation line, J. Chem. Phys. 98 ,pp. 4149-4162 (1993)