Efficacy of a Continuous Dean Flow UV-C System in Almond Milk Treatment Using Computational Fluid Dynamics and Biodosimetry

A continuous Dean flow UV-C system was designed using fluorinated ethylene propylene tubing with UV-C transmission approximate to 60% wrapped in a serpentine path to improve axial mixing with a Dean number > 140. The microbial inactivation efficiency of the system was evaluated using Salmonella Typhimurium, E. coli O157:H7, Staphylococcus aureus, Saccharomyces Cerevisiae, and T1UV inoculated in almond milk (AM) and treated at various fluence levels at an optimized flow rate of 515 mL/min. In addition, a detailed examination of the velocity magnitude at various locations in a dean flow system, especially at the bends, was quantified. The findings indicate that a reduction > 4 log(10) CFU/mL was attained for all specified microorganisms with a reduction equivalent fluence of 22.05 mJ/cm(2). Additionally, computational fluid dynamics were employed to examine the velocity magnitude and incident radiation field within the tubing. In summary, the system demonstrated effectiveness in inactivating target microorganisms present in almond milk. Incorporating UV treatment in the production line allows for more environmentally sustainable practices, reducing energy consumption, and may eliminate the need for additional preservatives in plant-based beverage manufacturing.