The classic theory to derive the characteristic Rayleigh wavelength is analysed in terms of the phenomenon of self-organization due to the mechanism of fastest forming instability. The Hammersley and Clifford theorem, concerning the general form of energy function, belonging to Markov Random Fields, is introduced for detailed classification of a simple model used for computer simulation.
The relevant Auto-model, with Kawasaki dynamics, is chosen to investigate the liquid jet and the instability of the liquids cylindrical film. The computer-simulated outputs show encouraging agreement with the classic analytical predictions on main features of the Rayleigh instability.
The model is also used as a foundation stone for developing a simple analytical approach for the estimation of Rayleigh wavelength of jets and cylindrical films, composed of instable mixtures of immiscible liquids. Qualitatively, the theory agrees with both computer simulation and experiment.