Gravity Separation of Raw Bovine Milk: Fat Globule Size Distribution and Fat Content of Milk Fractions

Abstract

This project determined effects of time and temperature on changes of fat globule size distribution and fat content in milk fractions during gravity separation. Fresh raw bovine milk was gravity separated at 4 or 15°C. After 2, 6, 12, and 48h, seven fractions, from bottom fraction (F1) to top fraction (F7), were successively drained from a separation column. Higher temperature resulted in a faster rate of fat separation. Within 2h, large fat globules had already moved to the top, and the volume mean diameter of F7 increased from 3.13 μm (without separation) to 3.48 and 3.64 μm, respectively, at 4 and 15°C. In F7, there was little change in globule size distribution after 2h, but fat content continued to increase with separation time. The fat content of F7 reached 26.6% after 48h at 4°C, achieving a 58.8% creaming capacity. For F1 to F6, longer separation time resulted in smaller fat globule sizes and lower fat contents, especially for F1. After 48h at 4°C, the volume mean diameter of F1 decreased from 3.23 μm(without separation) to 1.16 μm, and fat content decreased from 3.75% (without separation) to 0.20%. Gravity separation may have unique applications in the dairy industry today. Its simplicity makes it an effective procedure for small-scale dairy product manufacturers to produce milks with a range of fat contents without using a centrifugal cream separator.