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 invention relates to compositions comprising 1,2,4-trioxane compounds and chlorogenic acids. The invention further provides a method for the stabilization of 1,2,4-trioxane compounds against degradation, in particular against thermal degradation or degradation induced by reducing agents such as reducing carbohydrates, reducing sugars, electromagnetic radiation or heavy metal ions.

A method for preparing beverages by extraction, employing high-pressure processing (HPP), for the bulk production of enriched beverages, ready for consumption and with an extended useful life. The method uses high hydrostatic pressures to perform a solid-liquid extraction and/or infusion (e.g. cold infusion) with an improved extraction rate and/or yield, and simultaneously inactivating spoilage and pathogenic micro-organisms to increase its safety and useful life. The method includes placing a mix (8) of solids and liquids in a bag (3) located within a vessel (4) and pressurising same to a pre-set pressure (up to 800 MPa) and maintaining said pressure (10) for a pre-set period of time. The method includes the subsequent depressurisation of the vessel (11) and the removal of the mix from the bag (12), filtering the same under ultra-clean conditions (13), thus obtaining a safe, particle-free beverage, enriched with the extracted compounds of interest.

A method for preparing beverages by extraction, employing high-pressure processing (HPP), for the bulk production of enriched beverages, ready for consumption and with an extended useful life. The method uses high hydrostatic pressures to perform a solid-liquid extraction and/or infusion (e.g. cold infusion) with an improved extraction rate and/or yield, and simultaneously inactivating spoilage and pathogenic micro-organisms to increase its safety and useful life. The method includes placing a mix (8) of solids and liquids in a bag (3) located within a vessel (4) and pressurising same to a pre-set pressure (up to 800 MPa) and maintaining said pressure (10) for a pre-set period of time. The method includes the subsequent depressurisation of the vessel (11) and the removal of the mix from the bag (12), filtering the same under ultra-clean conditions (13), thus obtaining a safe, particle-free beverage, enriched with the extracted compounds of interest.

A packaged coffee product with oxygen dissolved therein along with milk and/or sweeteners in the sealed packaging is provided. Preferably, the pH of the product is 4.6 or greater, preferably 5.0 or greater. The coffee product may be hot or cold brew coffee and may have other gasses such as nitrogen and/or carbon-dioxide in the sealed container. Ideally, there is oxygen in both the headspace and liquid portion of the beverage in order to inhibit C. Bot growth without requiring retort processing. Preferably, the calorie count is in the range of 0.5-9 calories per ounce.

A product including a bottle with a mouth; a drink inside the bottle, the drink including a version of an alcoholic drink, where there is no alcohol or there is alcohol at a concentration by volume less than 1.5%; a pourer attached to the mouth and having a flow channel, a check valve, an air-vent channel and a filter, where the flow channel and the check valve allow via the same a flow of the non-alcoholic drink towards outside the product, the air-vent channel allows air to pass inside the bottle, and the filter produces a filtration of the air passing inside the bottle via the air-vent channel, the drink being any of a non-alcoholic drink, an alcohol substitute drink, a low alcohol drink, an alcohol free drink, or a de-alcoholized drink. Also, a method for extending the lifetime of a non-alcoholic drink, related to making the drink.

A cleaning method of a heat sterilization system includes: a step of causing a fluid formed of a cleaning liquid or a rinse liquid to flow through the heat sterilization system; a step of supplying hot water to a second-stage heating unit to heat the second-stage heating unit; and a step of measuring fluid temperatures of the fluid at the fluid inlet and the fluid outlet of the second-stage heating unit, and medium temperatures of the hot water at a medium inlet of the second-stage heating unit and a medium outlet of the second-stage heating unit. An overall heat transfer coefficient (U value) of a heating pipe of the second-stage heating unit is calculated based on the fluid temperatures at the fluid inlet and the fluid outlet of the second-stage heating unit and the medium temperatures at the medium inlet and the medium outlet of the second-stage heating unit.

A product including a bottle with a mouth; a drink inside the bottle, the drink including a version of an alcoholic drink, where there is no alcohol or there is alcohol at a concentration by volume less than 1.5%; a pourer attached to the mouth and having a flow channel, a check valve, an air-vent channel and a filter, where the flow channel and the check valve allow via the same a flow of the non-alcoholic drink towards outside the product, the air-vent channel allows air to pass inside the bottle, and the filter produces a filtration of the air passing inside the bottle via the air-vent channel, the drink being any of a non-alcoholic drink, an alcohol substitute drink, a low alcohol drink, an alcohol free drink, or a de-alcoholized drink. Also, a method for extending the lifetime of a non-alcoholic drink, related to making the drink.

An HPP system uses large polymer based bags (20) to increase the amount of food product or other flowable product that can fit into a HPP carrier (22). Each bag 20 has a filling fitment (24), to which a flow valve (26) can be attached. The bag (20) is inserted into the carrier (22) and then the fitment (24) is manually or automatically connected to a flow valve (26). Next, the product is pumped into the bag (20) through a hose or pipe (30) which is attached to the flow valve. Thereafter, the flow valve (26) is removed and the fitment closed, and then carrier (22) together with the bag is inserted into the HPP press for high pressure processing of the product. After the HPP process, the flow valve is used to un-fill the treated product from the bag (20).