The invention relates to olive processing, and includes methods for producing olives, as well as the olives produced thereby. In one aspect, the invention provides compositions directed towards packaged olive preparations having novel and beneficial characteristics, for example, olive preparations that are free of packing liquids such as brine solutions. In other aspects, the packaged olive preparations of the invention can have other beneficial properties, such as extended shelf life and flavored stuffings or flavor infusions. In other aspects, the invention provides methods for producing such olives. The invention relates particularly, but not exclusively, to black-ripe olives.

The present disclosure relates beverage nanoemulsions and methods for making such beverage nanoemulsions. More particularly, the present disclosure relates to methods for making beverage nanoemulsions using high shear processing.

The present disclosure relates beverage nanoemulsions and methods for making such beverage nanoemulsions. More particularly, the present disclosure relates to methods for making beverage nanoemulsions using high shear processing.

A particle containing at least one hydrophobic matrix material and at least one volatile substance, the particle contains 60% to 90% by weight of the at least one matrix material, whereby the at least one matrix material is selected from the group of fats, hydrogenated triglycerides and waxes that are solid or semi-solid at 20 C. and 1 atmosphere, that the particle contains 10% to 40% by weight of the at least one volatile substance, whereby the at least one volatile substance is selected from essential oils and/or plant extracts, that the at least one volatile substance is homogeneously distributed in the at least one matrix material, and that the particle has a sphericity from 0.800 to 0.999, as well as to a process for preparing said particle as well as to a food and/or feed additive containing said particle and optionally at least one further component.

A particle containing at least one hydrophobic matrix material and at least one volatile substance, the particle contains 60% to 90% by weight of the at least one matrix material, whereby the at least one matrix material is selected from the group of fats, hydrogenated triglycerides and waxes that are solid or semi-solid at 20 C. and 1 atmosphere, that the particle contains 10% to 40% by weight of the at least one volatile substance, whereby the at least one volatile substance is selected from essential oils and/or plant extracts, that the at least one volatile substance is homogeneously distributed in the at least one matrix material, and that the particle has a sphericity from 0.800 to 0.999, as well as to a process for preparing said particle as well as to a food and/or feed additive containing said particle and optionally at least one further component.

A complete meal mimic is provided. It may be in the form of a small mass, and may contain free amino acids or peptides to mimic proteins in a meal. Digestion of the mimic may be at a controlled rate, emulating that of real food. The mimic may include the equivalent of 10-30 g protein in the form of amino acids and peptides, 10 to 20 grams of carbohydrates in the form of starches and fiber and 10 to 30 g of lipids from different oils. The oils may be one or more from avocado, coconut, and flaxseed. The mimic also may contain micro-nutrients provided by meals, including minerals and vitamins in bio-available forms. The mimic may stand in the place of a meal in the 100 calories to 500 calories range. The flavor of the mimic may include natural bitter blockers and/or mushroom powder.

A complete meal mimic is provided. It may be in the form of a small mass, and may contain free amino acids or peptides to mimic proteins in a meal. Digestion of the mimic may be at a controlled rate, emulating that of real food. The mimic may include the equivalent of 10-30 g protein in the form of amino acids and peptides, 10 to 20 grams of carbohydrates in the form of starches and fiber and 10 to 30 g of lipids from different oils. The oils may be one or more from avocado, coconut, and flaxseed. The mimic also may contain micro-nutrients provided by meals, including minerals and vitamins in bio-available forms. The mimic may stand in the place of a meal in the 100 calories to 500 calories range. The flavor of the mimic may include natural bitter blockers and/or mushroom powder.

Microparticles include a matrix of an encapsulating material, in which are dispersed particles of a low melting point fat and a bioactive material, such as one or more probiotic bacteria. The microparticles are formed by preparing an emulsion of melted low melting point fat in an aqueous mixture of the encapsulating material, cooling the emulsion below the melting point of the low melting point fat, dispersing the bioactive material in the emulsion and spray drying the emulsion. The particles of solid low melting point fat are believed to protect the bioactive material from heat damage during the spray drying process.

Microparticles include a matrix of an encapsulating material, in which are dispersed particles of a low melting point fat and a bioactive material, such as one or more probiotic bacteria. The microparticles are formed by preparing an emulsion of melted low melting point fat in an aqueous mixture of the encapsulating material, cooling the emulsion below the melting point of the low melting point fat, dispersing the bioactive material in the emulsion and spray drying the emulsion. The particles of solid low melting point fat are believed to protect the bioactive material from heat damage during the spray drying process.

The invention relates to olive processing, and includes methods for producing olives, as well as the olives produced thereby. In one aspect, the invention provides compositions directed towards packaged olive preparations having novel and beneficial characteristics, for example, olive preparations that are free of packing liquids such as brine solutions. In other aspects, the packaged olive preparations of the invention can have other beneficial properties, such as extended shelf life and flavored stuffings or flavor infusions. In other aspects, the invention provides methods for producing such olives. The invention relates particularly, but not exclusively, to black-ripe olives.