Multivariable Control of a Pulsed Liquid-Liquid Extraction Column by Neural Networks

This paper describes an application of a direct adaptive control scheme to a pulsed liquid-liquid extraction column. Liquid-liquid extraction has been increasingly used in several industries as a separation technique. It performs a high degree of purification and is not heavy on energy. In spite of

Liquid extractions of benzoic acid-toluene solutions by means of water were studied under varying flow rates of both solvents in a 2-in. perforated-plate column to which pulsations of different frequencies and amplitudes were applied. Studies on reversal of the phase of the dispersion were made. Wit

In this paper, we present two on-line adaptive control algorithms for non-linear plants using neural networks. The architecture used is based on the concept of specialized learning, which was first proposed by Psaltis et al. and suffers from two main problems, namely lack of knowledge of the plant J

Classically, sinusoidal oscillations are imposed to enhance mixing and mass transfer between two phases contacted. But, in any case of solid-liquid contact, it was noticed that this pulsation mode was not efficient enough to allow a controlled behavior of the solid phase. The problem is particularly