Ever wondered about how ultrasound could be used to enhance food safety? An article to be published in Food Safety details the “principles, mechanisms and effects of ultrasound on fruits and vegetables as a sanitization technology.”
Changes in consumer eating habits, health concerns, and convenient and practical foods have led to an increased demand for fruit and vegetable products. Food safety is essential considering that there are reports of outbreaks involving the consumption of fruits and vegetables contaminated with pathogens. Washing associated with sanitizer procedure is considered as a critical step to satisfy hygienic and sanitary requirements and maintain the sensory and nutritional characteristics of fruits and vegetables. Chemical compounds are widely applied to clean and sanitize fresh fruits and vegetables, and some of these chemicals, such as the inorganic chlorine compounds, produce by-products that are dangerous to human health. The use of ultrasound is a technology that is gaining ground in the food industry. Ultrasound is a form of energy generated by sound waves at frequencies that are too high to be detected by the human ear. In ultrasound, the removal of dirt and food residues from surfaces and the inactivation of microorganisms occur as a consequence of cavitation, which is the formation, growth and collapse of bubbles that generate a localized mechanical and chemical energy. There are indications that this technology can be used in the food industry, alone or associated with chemical sanitizers. In this paper, we discuss the principles, mechanisms and effects of ultrasound on fruits and vegetables as a sanitization technology.
Full article at: http://dx.doi.org/10.1016/j.foodcont.2014.04.015
Title: Decontamination by ultrasound application in fresh fruits and vegetables
Source: Food Control. Volume 45, November 2014, Pages 36 – 50
Authors: Jackline Freitas Brilhante de SÃ£o JosÃ©, NÃ©lio JosÃ© de Andrade, Afonso Mota Ramos, Maria Cristina Dantas Vanetti, Paulo CÃ©sar Stringheta and JosÃ© BenÃcio Paes Chaves
Document Type: Research Article
Bubbles image by Ilena Gecan 2007 (under creative commons licence)