2026-03-18 マサチューセッツ大学アマースト校
<関連情報>
- https://www.umass.edu/news/article/umass-amherst-food-scientists-develop-new-antimicrobial-cleaning-and-sanitizing-dry
- https://www.sciencedirect.com/science/article/pii/S0362028X26000219
食品加工機器のドライクリーニングおよび殺菌のための、蒸発性、低可燃性、低水分性の抗菌液の開発と検証 Development and Validation of an Evaporative, Low-Flammability, and Low-Moisture Antimicrobial Liquid for Dry Cleaning and Sanitization of Food Processing Equipment
Shihyu Chuang, Galaxie Story, Lynne McLandsborough
Journal of Food Protection Available online: 9 February 2026
DOI:https://doi.org/10.1016/j.jfp.2026.100716
Highlights
- Use of alcohol-based agents may subject food facilities to fire code regulations.
- The evaporation kinetics of selected polar and nonpolar solvents was determined.
- Acidified W/Si emulsion showed a bacterial reduction of >7 log in 10 min at 22 °C.
- Acidified W/Si emulsion is volatile and has a closed-cup flashpoint of 80 °C.
- Surfaces with dried milk films required extensive cleaning for decontamination.
Abstract
Environmentally persistent organisms such as Salmonella spp. and Cronobacter spp. have caused several high-profile outbreaks associated with the consumption of low-moisture foods. Sanitary operations in dry food-processing environments are challenging as excess moisture elevates the risk of microbial harborage and transfer. In this work, the evaporation kinetics of selected polar and nonpolar solvents was characterized with dynamic vapor sorption. A low-moisture, volatile antimicrobial liquid was formulated using 3% v/v water-in-cyclomethicone emulsion as the carrier for 200 mM acetic acid, which had a closed-cup flashpoint of 80 °C and a rate of bacterial-killing by greater than 7 log CFU/coupon in 10 min at 22 °C against Salmonella and Cronobacter cocktails desiccated (33% ERH) on a stainless-steel surface. Hand-cleaning validation involving inoculated-and-equilibrated milk films suggested that decontamination of the underlying substratum required prior, extensive scrubbing. Collectively, the developed system showed potential as an alternative to alcohol-based agents for dry cleaning and sanitization.
