A method of producing a non-dairy cheese includes fermenting non-dairy milk with lactic acid bacteria and mixing the fermented non-dairy milk with dry ingredients. The dry ingredients include one or more gums and one or more starches. The method further includes heating the fermented non-dairy milk and dry ingredients to 180 degrees and mixing oil into the fermented non-dairy milk in an in-line high shear mixer creating an oil/non-dairy milk mixture. The method further includes circulating the oil/non-dairy milk mixture through the inline high shear mixer until the droplet size of the oil in the non-dairy milk is 15 micrometers or less, removing air from the oil/non-dairy milk mixture, and packaging the oil/non-dairy milk mixture to yield a non-dairy cheese product.

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 method, to a biodegradable film and to a package for cheese ripening or preservation, in particular for ripening hard or semi-hard cheese, preferably rind cheese. This method, thanks to the peculiar transmission properties of the film, provides cheese more similar to naturally ripened cheese, with a minor loss of water, due to evaporation, with reduced mold and yeast growth, and without significant flavor, consistency and color deviations.

The present invention relates to a method, to a biodegradable film and to a package for cheese ripening or preservation, in particular for ripening hard or semi-hard cheese, preferably rind cheese. This method, thanks to the peculiar transmission properties of the film, provides cheese more similar to naturally ripened cheese, with a minor loss of water, due to evaporation, with reduced mold and yeast growth, and without significant flavor, consistency and color deviations.

The present invention includes a method and food product made by at least partially enclosing a food product with a water-permeable membrane; and contacting a brine or sugar solution with a water activity sufficiently high to draw water molecules across the water-permeable membrane and away from the food product to preserve the food.

A method of producing a non-dairy cheese includes fermenting non-dairy milk with lactic acid bacteria and mixing the fermented non-dairy milk with dry ingredients. The dry ingredients include one or more gums and one or more starches. The method further includes heating the fermented non-dairy milk and dry ingredients to 180 degrees and mixing oil into the fermented non-dairy milk in an in-line high shear mixer creating an oil/non-dairy milk mixture. The method further includes circulating the oil/non-dairy milk mixture through the inline high shear mixer until the droplet size of the oil in the non-dairy milk is 15 micrometers or less, removing air from the oil/non-dairy milk mixture, and packaging the oil/non-dairy milk mixture to yield a non-dairy cheese product.

A method of producing a non-dairy cheese includes fermenting non-dairy milk with lactic acid bacteria and mixing the fermented non-dairy milk with dry ingredients. The dry ingredients include one or more gums and one or more starches. The method further includes heating the fermented non-dairy milk and dry ingredients to 180 degrees and mixing oil into the fermented non-dairy milk in an in-line high shear mixer creating an oil/non-dairy milk mixture. The method further includes circulating the oil/non-dairy milk mixture through the inline high shear mixer until the droplet size of the oil in the non-dairy milk is 15 micrometers or less, removing air from the oil/non-dairy milk mixture, and packaging the oil/non-dairy milk mixture to yield a non-dairy cheese product.

Heating the natural cheese to cause at least one of modification of the structural chemistry of the proteins, completely or partially denaturing proteins, and inactivating proteolytic enzymes, lipolytic enzymes, and microbial organisms within the cheese allows for the cheese to be fried or grilled while maintaining its consistency and shape, baked as Juustoleipa; heated and mechanically processed as in cooking-stretching process used for mozzarella. The method produces cheese with various structural and melting properties using a single recipe and manufacturing facility.

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.

A method of drying an organic material by microwave-vacuum drying below but close to the triple point of water has been determined to allow more conversion of microwaves to heat than would occur when microwave freeze-drying at lower pressures. The method comprises introducing the organic material into a microwave-vacuum dehydrator, exposing the organic material to microwave radiation in the dehydrator to dry the organic material by sublimation, and maintaining pressure in the dehydrator in the range of 0.5 Torr to 4.5 Torr. The method provides the benefits of reduced drying time, energy requirements and product temperatures, relative to dehydration done at lower vacuum pressures.