A method to produce cheese chips provides that cut cheese slices are frozen and then raised by means of rapid water evaporation due to the application of microwave and vacuum drying. The freezing step is preceded by drying and cooling, and the raised cheese chips containing cheese and flavourings are characterised in that their density does not exceed 0.46 g/cm.sup.3, the porosity does exceed 40%, and the crunchiness does exceed 4.

A method to produce cheese chips provides that cut cheese slices are frozen and then raised by means of rapid water evaporation due to the application of microwave and vacuum drying. The freezing step is preceded by drying and cooling, and the raised cheese chips containing cheese and flavourings are characterised in that their density does not exceed 0.46 g/cm.sup.3, the porosity does exceed 40%, and the crunchiness does exceed 4.

A method of preparing frozen breaded poultry meat in which the poultry meat is compressed into a solid form, frozen, formed into portions, batter-breaded while frozen, and par-fried. The par-fried breaded poultry meat portions may then be cooked for consuming. The method enables the control of portion size independent of the shape, and provides a frozen breaded poultry meat portion that when cooked, has the appearance and the texture of whole muscle meat, independent of trimmings content.

The present invention relates to a packaging, particularly for frozen food, which particularly comes from renewable sources, and which particularly does not compete with food production.

The problem is solved by a packaging for a frozen product, wherein at least 50 wt % of the packaging and/or its main component is formed of kraft paper and/or kraft cardboard, particularly unbleached, and/or paper, particularly fresh fiber paper.

The present invention is a system and method for performing freeze drying of small quantities of a liquid for personal use, wherein a liquid material is disposed within a single-use container, the container is then coupled to a small-scale freeze-drying unit which extracts liquid from the material in the container using a freeze-drying process, and the freeze-dried material is then left in the container and the container is stored until rehydration. The container may be a specialized single-use container that may be used to rehydrate the liquid and then fitted with a delivery device to feed an infant or child.

The present invention relates to an aerated frozen confection with an overrun of between 120% and 160%, which includes acacia gum as all or part of a natural emulsifier. A process for the preparation of this frozen confection is also disclosed.

The present invention relates to an aerated frozen confection with an overrun of between 120% and 160%, which includes acacia gum as all or part of a natural emulsifier. A process for the preparation of this frozen confection is also disclosed.

A system and method for manufacturing a cooked egg product includes an automated egg cracker that receives the raw, shelled eggs from the infeed conveyor and removes the shells from the eggs; a cooking conveyor having a plurality of cooking pans that receives the whole eggs and induction heats the cooking pans sufficiently to completely cook the eggs contained in the cooking pans, resulting in cooked eggs; a pasteurization tunnel that receives the cooked eggs in the cooking pans from the induction heater; and a control that actuates the pasteurization tunnel to heat the surfaces of the eggs to a pasteurization temperature. A freezer freezes the cooked and pasteurized eggs, and a packaging machine packages the frozen, cooked and pasteurized eggs. Alternatively, the induction cooked eggs are frozen after cooking and individually vacuum packaged, sous vide heated to a pasteurization temperature, then chilled or frozen for storage or shipment.

The present invention relates to the field of food processing and provides a method for preparing olive leaf powder, including the following steps: pulverizing olive leaves under conditions protected from light to obtain crushed olive leaves; immersing the crushed olive leaves in water, and homogenizing, to obtain an olive-leaf homogenate; pre-freezing the olive-leaf homogenate at a temperature below 16 C. for more than 25 min, and then vacuum freeze-drying to obtain the olive leaf powder; where the vacuum freeze-drying is performed according to the following: the olive-leaf homogenate is heated at a constant rate from the pre-freezing temperature to a drying temperature, and is dried at this temperature for more than 20 min to obtain the olive leaf powder; and the drying temperature is 15-35 C. In the present invention, the olive leaves are subjected to pulverization and homogenization before the freeze drying, such that by changing the sequence of pulverization and freeze-drying, the freeze-drying efficiency is effectively improved and the energy consumption during freeze-drying is reduced, thereby reducing the freeze-drying cost; and the present invention effectively preserves active substances of the olive-leaf powder, such as the total flavonoids and oleuropein, and improves the reconstitution property of the product, thereby effectively achieving a balance between the quality of the olive-leaf powder and the processing cost.

A method for manufacturing peeled nuts includes: freezing shelled raw material nuts rapidly in a temperature condition of 50 C. or lower; peeling off thin seed coats from the nuts through an agitating or crushing process, in a state in which frozen nuts are frozen as are; and separating and removing the thin seed coats from the nuts in a low-temperature condition in which re-attachment of the thin seed coats to the thin seed coat-peeled nuts does not occur, and obtaining the peeled nuts. In such a configuration, it is possible to efficiently manufacturing high-quality peeled nuts without a damage to an original flavor of the nuts, with little mixing of the seed coats generated through decoating with the decoated nuts, and without the nuts being crushed into too small pieces.