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Original scientific paper

Application of Ultrasound and High Hydrostatic Pressures on Variation of Fat Globule Size and Chemical Composition of Cow Milk

Tomislav Bosiljkov orcid id orcid.org/0000-0001-6665-4208 ; Faculty of Food Technology and Biotechnology; University of Zagreb
Mladen Brnčić ; Faculty of Food Technology and Biotechnology; University of Zagreb
Sven Karlović ; Faculty of Food Technology and Biotechnology; University of Zagreb
Branko Tripalo ; Faculty of Food Technology and Biotechnology; University of Zagreb
Damir Ježek ; Faculty of Food Technology and Biotechnology; University of Zagreb
Filip Dujmić ; Faculty of Food Technology and Biotechnology; University of Zagreb
Denis Vadlja ; Faculty of Food Technology and Biotechnology; University of Zagreb


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Abstract

Main common property of novel food processing technologies, such as high hydrostatic pressure, pulsed light and high intensity ultrasound is non-thermal treatment. Such technologies input minimal amount of heat energy in food, which is low enough to preserve bioactive compounds, textural and other organoleptic properties of processed food. High pressure processing and ultrasonics also utilize relatively short processing times, ranging from a few seconds up to 30 minutes. Main goals of this research are to improve conventional milk homogenization technology, show advantages of application of high intensity ultrasound in the batch (maximal power 100 W) and continuous setup (maximal power of 1000 W, with flow cell), as well as investigate influence of high pressure processing (up to 600 MPa) on particle size distribution of fat globules. Milk homogenization is conducted under optimal processing parameters, which have statistically significant influence on changes in the size distribution of milk fat globules (degree of homogenization). Influence of high intensity ultrasound and high pressure processing on changes in chemical composition of cow milk is also investigated. Optimal globule size distribution in interval between 0.3 and 6 μm is achieved using both setups. Median value decrease is achieved processing with 200 MPa pressure. Chemical analysis counducted with low intensity ultrasound indicate that
batch ultrasound processing and high hydrostatic pressure processing of milk have minimal or no statistically significant influence on chemical composition of milk. Continuous ultrasonic processing at lower volume flows have small but statistically significant influence on ash composition.

Keywords

high hydrostatic pressure; ultrasound; chemical composition; cow milk

Hrčak ID:

115922

URI

https://hrcak.srce.hr/115922

Publication date:

2.1.2014.

Article data in other languages: croatian

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