A method for producing a solid food having a solid form obtained by compression molding a food powder includes: compression molding the food powder to form a compression molded body of the food powder; and performing a hardening treatment on the compression molded body of the food powder, in which the hardening treatment includes placing the compression molded body of the food powder under an environment of a humidity of 100% RH or less and a temperature of higher than 100° C.

Disclosed are methods and devices for reducing the number of pathogens in a liquid. The methods or devices uses one or more of pressure, pressure drop, increased temperature, rate of temperature increase, and inert gas to kill pathogens. In one embodiment, inert gas is dissolved into a liquid at a pressure greater than ambient pressure. The pressure is later rapidly reduced, which causes inert gas to be released from the liquid. This reduces the number of pathogens in the liquid. Other method steps or processes that do not utilize inert gas are also disclosed.

A method for producing liquid fermented milk according to the present invention includes: preparing a fermented milk base that contains milk protein containing whey protein; adding a lactic acid bacteria starter to the fermented milk base and then inducing fermentation to produce fermented milk curds; breaking the fermented milk curds to produce fermented milk having an average particle diameter of 1 μm or more and 20 μm or less; and holding the fermented milk in a container to thicken the fermented milk, thereby producing liquid fermented milk, the liquid fermented milk containing the milk protein in an amount of 2.5% or more, the milk protein containing the whey protein in an amount of 25% or more, the liquid fermented milk having a viscosity at 10° C. of 100 mPa.Math.s or more and 700 mPa.Math.s or less.

The present invention relates to high pressure processing (HPP) methods of and containers for preparation of food products such as solid or semi-solid foods, beverages and food supplements containing high-pressure sensitive probiotics and other high-pressure sensitive substances, which maintain their viability, biological activity and other beneficial properties in the prepared food product. The present invention also relates to pasteurized food products containing biologically active high-pressure sensitive probiotics, other high-pressure sensitive substances, or their combinations.

The present invention relates to high pressure processing (HPP) methods of and containers for preparation of food products such as solid or semi-solid foods, beverages and food supplements containing high-pressure sensitive probiotics and other high-pressure sensitive substances, which maintain their viability, biological activity and other beneficial properties in the prepared food product. The present invention also relates to pasteurized food products containing biologically active high-pressure sensitive probiotics, other high-pressure sensitive substances, or their combinations.

The present disclosure is related to a method and product of preparing an anti-agglomeration yogurt-based product for use in an aerosol container, comprising: creating a suspension comprised of at least one dairy ingredient and water, pasteurizing the suspension, cooling the suspension to a temperature range to enable culture activity, inoculating the suspension with a culture of yogurt-forming bacteria, homogenizing the suspension, and packaging the suspension.

The present invention relates to high pressure processing (HPP) methods of and containers for preparation of food products such as solid or semi-solid foods, beverages and food supplements containing high-pressure sensitive probiotics and other high-pressure sensitive substances, which maintain their viability, biological activity and other beneficial properties in the prepared food product. The present invention also relates to pasteurized food products containing biologically active high-pressure sensitive probiotics, other high-pressure sensitive substances, or their combinations.

The present invention relates to a system for processing milk, which comprises a thermal pasteurization device and an autoclaving treatment device. The raw milk is sequentially subjected to thermal pasteurization and autoclaving treatment to obtain milk which can be transported by a long distance. The present invention has the beneficial effects that the method for processing milk of the present invention is used for extending the service life of the pure milk and improving the storage capacity thereof; the short service life reduces the influence on the nutrient composition and flavor of the milk; the obtained milk has a taste closer to the fresh raw milk, and the storage time is longer; after thawing to restore the liquid state, the shelf life can be up to 21 days; the milk processed by the method of the present invention can be used for transporting by a long distance.

Provided are methods for processing milk using one or more procedures that include at least one high pressure treatment, such as High Pressure Jet Processing at a hydrostatic pressure of at least 400 MPa. Food additives and food products that contain processed milk components are also provided, and may be dairy or non-dairy products.

There is provided a creamer composition, said composition comprising casein or a salt thereof and an oil, wherein the weight ratio of casein or salt thereof to oil is about 0.005:1 to about 0.035:1, preferably about 0.010:1 to about 0.030:1; preferably about 0.012:1 to about 0.028:1, more preferably about 0.015:1 to about 0.025:1. Also provided are uses of said creamer composition together with a process of preparing a creamer composition.