A synthetic multiphase product comprising BsIA is presented. Methods of producing a synthetic multiphase product comprising BsIA, and applications of BsIA in synthetic multiphase products are also presented.

A synthetic multiphase product comprising BsIA is presented. Methods of producing a synthetic multiphase product comprising BsIA, and applications of BsIA in synthetic multiphase products are also presented.

The invention proposes a method for the production of a porous powder product containing a microorganism, from a liquid concentrate comprising at least one liquid microorganism culture and a carrier composition, the carrier composition comprising at least one carbohydrate and at least one protein, the method comprising the steps of: i) preparing the liquid concentrate to have both a temperature of between and 40° C. and a viscosity greater than 150 mPa.Math.s; ii) injecting a food grade gas into the prepared concentrate at a pressure greater than 0.3 MPa to intimately incorporate the gas into the liquid concentrate and form a stable foam with a density of between about 0.6 to about 1.2 kg/l; iii) conveying the foam to an atomizing device wherein the pressure of the foam is reduced from 0.3 MPa to atmospheric pressure to provide a partially dried product; and iv) exposing the partially dried product to a drying media to reduce both the moisture content to less than 5% moisture and the water activity to less than 0.25 A.sub.w, when measured at 20° C., and to provide the porous powder product, wherein the temperature of the porous powder product in step (iv) does not exceed 50° C.

The invention proposes a method for the production of a porous powder product containing a microorganism, from a liquid concentrate comprising at least one liquid microorganism culture and a carrier composition, the carrier composition comprising at least one carbohydrate and at least one protein, the method comprising the steps of: i) preparing the liquid concentrate to have both a temperature of between and 40° C. and a viscosity greater than 150 mPa.Math.s; ii) injecting a food grade gas into the prepared concentrate at a pressure greater than 0.3 MPa to intimately incorporate the gas into the liquid concentrate and form a stable foam with a density of between about 0.6 to about 1.2 kg/l; iii) conveying the foam to an atomizing device wherein the pressure of the foam is reduced from 0.3 MPa to atmospheric pressure to provide a partially dried product; and iv) exposing the partially dried product to a drying media to reduce both the moisture content to less than 5% moisture and the water activity to less than 0.25 A.sub.w, when measured at 20° C., and to provide the porous powder product, wherein the temperature of the porous powder product in step (iv) does not exceed 50° C.

The invention relates to an oil-in-water (O/W) emulsions that can be aerated to produce foamed emulsions. The O/W emulsions of the present invention consist of: 20-45 wt. % water; 4-40 wt. % oil; 3-12 wt. % of cyclodextrin selected from alpha-cyclodextrin, beta-cyclodextrin and combinations thereof; 20-60 wt. % of saccharides selected from monosaccharides, disaccharides, non-cyclic oligosaccharides, sugar alcohols and combinations thereof; 0-30 wt. % of other edible ingredients; wherein the emulsion contains at least 80% of the saccharides by weight of water. The O/W emulsions of the present invention are capable of forming foamed emulsions with high firmness and excellent shape retaining properties. These foamed emulsions further offer the advantage that they exhibit excellent stability.

The invention relates to an oil-in-water (O/W) emulsions that can be aerated to produce foamed emulsions. The O/W emulsions of the present invention consist of: 20-45 wt. % water; 4-40 wt. % oil; 3-12 wt. % of cyclodextrin selected from alpha-cyclodextrin, beta-cyclodextrin and combinations thereof; 20-60 wt. % of saccharides selected from monosaccharides, disaccharides, non-cyclic oligosaccharides, sugar alcohols and combinations thereof; 0-30 wt. % of other edible ingredients; wherein the emulsion contains at least 80% of the saccharides by weight of water. The O/W emulsions of the present invention are capable of forming foamed emulsions with high firmness and excellent shape retaining properties. These foamed emulsions further offer the advantage that they exhibit excellent stability.

Use of a gas hydrate for producing a frozen food foam product, wherein the gas comprises air and/or one or more of carbon dioxide, nitrogen, nitrous oxide, argon and oxygen, preferably the gas comprises carbon dioxide and/or nitrogen.

The invention relates to a containerization system for dispensing a foamable food product comprising a single chamber pressure-resistant container comprising a base, a sidewall, and a nozzle, a food product composition comprising a food product and water, and a propellant. The invention is also directed to a process wherein the food product composition and propellant are combined to form a foamable mixture and the foamable mixture is disposed within a container such that the mixture expands in volume when it is released from the container, forming a foamed food product.

The invention relates to a containerization system for dispensing a foamable food product comprising a single chamber pressure-resistant container comprising a base, a sidewall, and a nozzle, a food product composition comprising a food product and water, and a propellant. The invention is also directed to a process wherein the food product composition and propellant are combined to form a foamable mixture and the foamable mixture is disposed within a container such that the mixture expands in volume when it is released from the container, forming a foamed food product.

A whippable food product has less than 5% by weight fat and includes about 0.5% to about 30% by weight of a dietary fiber; about 50% to about 95% by weight of water; up to about 5% by weight of a protein; up to about 5% by weight of a food starch; up to about 5% by weight of an emulsifier; and up to about 5% by weight of a hydrocolloid. The total amount of the protein, food starch, emulsifier, and hydrocolloid is within the range of about 0.25% to about 20% by weight. In certain embodiments, the whippable food product is substantially free of emulsifier. Such a whippable food product can be capable of being aerated, for example, to a stable foam having an overrun in the range of 100%-700%.