Reduction of salt content variability of dry-cured ham production using non-invasive technologies in an industrial environment

Abstract

Salt content variability of dry-cured ham production is a challenge for the industry since many factors can influence salt uptake during the salting procedure. The aim of this work was to define and evaluate different modifications of the salting procedure to reduce the salt content variability of an industrial dry-cured ham production. Results showed that magnetic induction (MI) is a valid technology for industrial purposes as it can predict in-line the fat and salt contents of hams with a percentage error of 1.75% and 0.38%, respectively. Modifications of the salting process defined according to raw material characteristics obtained in-line reduced the salt content variability (SD) of the global production from 0.337% to 0.283%. Moreover, a 25% reduction of the salt content variability in hams of similar weight and fat content could be achieved when using a reclassification of the defined categories with MI technology after 6 days of salting. Because of the complexity of the salting process, new tools combined with strategies need to be investigated and developed to overcome the variability coming from other sources than weight and the fat content of hams.