@article{article_1226277, title={Experimental Analysis of the Influence of Inter-Electrode Distance in Juice Extraction Processes Using Pulsed Electric Fields}, journal={The Eurasia Proceedings of Science Technology Engineering and Mathematics}, volume={21}, pages={295–301}, year={2022}, DOI={10.55549/epstem.1226277}, author={Bermakı, Mohammed Hamza and Mıloudı, Houcine and Bellebna, Yacine and Tılmatıne, Amar}, keywords={Pulse electric field (PEF), Juice extraction, Treatment chambers, Electrodes, Experimental designs.}, abstract={Nowadays, the pulsed electric field (PEF) is widely used in the food industry. The PEF treatment of
different fruits and vegetables before the extraction process has already been used, and its efficiency has already
been proven concerning the increase of the quantity of juice extracted, while keeping the aroma and the
nutritional quality of the product. The basic concept is to place food in a treatment chamber with two electrodes
and use high electric fields to increase the permeability of these cells, a process known as electroporation. An
experimental study of beet juice extraction process by pulse electric field has been presented. For this purpose,
three static treatment chambers of cylindrical shape with different inter-electrode distances were used. The aim
was to determine the influence of the inter-electrode distance in the PEF extraction processes. The methodology
of experimental designs was used in this work by developing a fractional factorial design where the interelectrode distance d was considered as a factor. The results obtained are satisfactory, since it leads us to
validated mathematical models. For the same experimental conditions, the treatment chamber with the largest
inter-electrode distance gave the best performance in terms of quantity of juice extracted. While the one with the
smallest inter-electrode distance is mainly a considerable energy saving but with a low yield in terms of juice
mass.}, publisher={ISRES Publishing}