Aseptic beverage products are prepared by mixing beverage ingredients together. The beverage ingredients include a protein source, such as a milk protein concentrate, and at least one buffering agent, with the at least one buffering agent including baking soda. Preferably, the at least one buffering agent further includes lemon juice concentrate. The pH of the beverage ingredients is adjusted to a level between 6.7 and 7.0 using the at least one buffering agent. The beverage ingredients are then heated to at least 139 C., and the at least one buffering agent prevents precipitation of the protein source during heating. Afterwards, the beverage ingredients are packaged as a plurality of aseptic beverage products.

Aseptic beverage products are prepared by mixing beverage ingredients together. The beverage ingredients include a protein source, such as a milk protein concentrate, and at least one buffering agent, with the at least one buffering agent including baking soda. Preferably, the at least one buffering agent further includes lemon juice concentrate. The pH of the beverage ingredients is adjusted to a level between 6.7 and 7.0 using the at least one buffering agent. The beverage ingredients are then heated to at least 139 C., and the at least one buffering agent prevents precipitation of the protein source during heating. Afterwards, the beverage ingredients are packaged as a plurality of aseptic beverage products.

Aseptic beverage products are prepared by mixing beverage ingredients together. The beverage ingredients include a protein source, such as a milk protein concentrate, and at least one buffering agent, with the at least one buffering agent including baking soda. Preferably, the at least one buffering agent further includes lemon juice concentrate. The pH of the beverage ingredients is adjusted to a level between 6.7 and 7.0 using the at least one buffering agent. The beverage ingredients are then heated to at least 139 C., and the at least one buffering agent prevents precipitation of the protein source during heating. Afterwards, the beverage ingredients are packaged as a plurality of aseptic beverage products.

Aseptic beverage products are prepared by mixing beverage ingredients together. The beverage ingredients include a protein source, such as a milk protein concentrate, and at least one buffering agent, with the at least one buffering agent including baking soda. Preferably, the at least one buffering agent further includes lemon juice concentrate. The pH of the beverage ingredients is adjusted to a level between 6.7 and 7.0 using the at least one buffering agent. The beverage ingredients are then heated to at least 139 C., and the at least one buffering agent prevents precipitation of the protein source during heating. Afterwards, the beverage ingredients are packaged as a plurality of aseptic beverage products.

The present invention relates to a high-speed dewatering and pulverizing turbine (1) for obtaining solid pulverized particles and dissociating the water present, which is formed by: a) a stator (6) having circular geometry with a duct at one end (7) for the outlet of the solid pulverized particles and a duct in the bottom part (10) for the inlet of solid particles to be pulverized; b) a wheel or rotor with vanes or blades, located inside the stator; and c) a central securing assembly for adjusting and securing all the elements that form the wheel or rotor. Also described is a method for obtaining solid pulverized and dewatered particles, wherein the water present is separated.

A spray drying process and apparatus for drying a spray dryable liquid composition to a spray dried powder is described, in which the spray dryable liquid composition contains no carrier. The spray dryable liquid composition is processed at a solids concentration not exceeding 80% by weight, based on total weight of the spray dryable liquid composition, being atomized to generate an atomized spray of liquid particles of the spray dryable liquid composition into a spray drying chamber, in which the atomized spray is contacted with a stream of drying fluid flowed at temperature not exceeding 100 C. into the spray drying chamber, to form the spray dried powder.

The present invention relates to a yarrow fresh plant press juice concentrate and a gentle method for its manufacture. The yarrow fresh plant press juice concentrate is used in cosmetic compositions, pharmaceutical compositions, food compositions or food supplements. This invention also relates to new aspects of the use of yarrow. The invention provides the use of yarrow to stimulate the expression of heat shock proteins and/or antimicrobial peptides in skin cells. It also describes the use of yarrow to increase the thermal tolerance of the skin.

The present invention relates to a phytocomplex or natural concentrate rich in polyphenolic compounds, such as hydroxytyrosol and 3,4-DHPA-EDA, derived from the vegetation waters of oil-bearing olives or from olive pomace resulting from the olive milling process for use in the treatment and prevention of angiogenesis and inflammation. In particular, the angiogenesis and inflammation to which reference is made is pathologic angiogenesis and inflammation, for example that which sustains the development and spread of a tumor or angiogenesis and inflammation tied to non-tumor pathologies. The present invention further relates to a beverage comprising the polyphenol concentrate and the use thereof in the treatment and prevention of angiogenesis and inflammation.

A beverage component in the form of a micronized fruit pulp comprised of a micronized pomace of a pomaceous fruit, wherein the fruit pulp has: a total solids content of from 4 to 10% by weight; a total dietary fibre content of from 2 to 6% by weight; and a particle size distribution wherein all the particles have a size within the range of not more than 2100 .Math.; 90% of the particles have a particle size below 1700 .Math.; the particles have a Volume Mean Diameter D[4,3] within the range of from 580 to 960 .Math.; and the particles have a Volume Median Diameter D(v, 0.5) within the range of from 470 to 980 .Math..

A method/process is provided for extracting and processing sugarcane juice from sugarcane stalks to produce a shelf-stable natural juice product preserving policosanols naturally-occurring in raw sugarcane sticks. The method includes steps of: providing sugarcane stalks having a high sucrose level; extracting sugarcane juice from the sugarcane stalks using a roller mill apparatus; filtering the extracted sugarcane juice through a screen filter; stabilizing the pH of the juice in a non-acidic solution of calcium hydroxide to a pH level in the range of 7.4 to 7.6; flocculating the sugarcane juice with a mixture of water and at least one natural flocculate product; evaporating the sugarcane juice to form a sugarcane juice concentrate having a Brix in the range of 50 Bx to 60 Bx; and extracting the sugarcane juice concentrate from the evaporator, while maintaining a maximum sugarcane juice temperature never exceeding 70 C. throughout the process.