To inexpensively and easily provide a modified starch having a novel property.

A modified starch of which a particle diameter distribution waveform exhibits a single peak, wherein a 10 mass % paste liquid of the modified starch has an RVA peak viscosity that is 5% or less of the RVA peak viscosity of an unmodified starch serving as a raw material, and the difference between the maximum particle diameter and the minimum particle diameter is 2 μm or less. The modified starch is suitable for use as a food additive, a food texture improvement agent, a base material for powderization, a binder additive, a paper-making additive, a building material additive, etc.

To inexpensively and easily provide a modified starch having a novel property.

A modified starch of which a particle diameter distribution waveform exhibits a single peak, wherein a 10 mass % paste liquid of the modified starch has an RVA peak viscosity that is 5% or less of the RVA peak viscosity of an unmodified starch serving as a raw material, and the difference between the maximum particle diameter and the minimum particle diameter is 2 μm or less. The modified starch is suitable for use as a food additive, a food texture improvement agent, a base material for powderization, a binder additive, a paper-making additive, a building material additive, etc.

There is described an confectionery composition comprising edible particulate material comprising from 80% to 100% by weight based on total weight of the material of a processable, microbially released, flavour acceptable bran-like material, characterized by the following parameters: (i) mean particle size by volume (Vol. MPS) of from 5 to 100 microns; (ii) volume particle size distribution (Vol. PSD) characterized by the parameters: D.sub.90,3 less than or equal to 350 microns, and D.sub.50,3 less than or equal to 50 microns, and optionally D.sub.10,3 less than or equal to 15 microns, (iii) mean particle sphericity as measured by a S.sub.mean of greater than or equal to 0.75; (iv) where processable means has oil holding capacity (OHC) of from 0.7 to 1.5; (v) where microbially released means material has common microbes below given limits (preferably free of common microbes) (vi) where flavour acceptable denotes a lipase activity (LA) and a peroxidase activity (PA) both less than or equal to 2 U/g and optionally a low degree of roasted flavour notes as defined herein. The bran-like material used in the confectionery compositions may added as a bulk ingredient to replace sugar and/or to provide confectionery fillings and/or coatings having improved hiding ability when used as layers in multilayer confectionery products.

There is described an confectionery composition comprising edible particulate material comprising from 80% to 100% by weight based on total weight of the material of a processable, microbially released, flavour acceptable bran-like material, characterized by the following parameters: (i) mean particle size by volume (Vol. MPS) of from 5 to 100 microns; (ii) volume particle size distribution (Vol. PSD) characterized by the parameters: D.sub.90,3 less than or equal to 350 microns, and D.sub.50,3 less than or equal to 50 microns, and optionally D.sub.10,3 less than or equal to 15 microns, (iii) mean particle sphericity as measured by a S.sub.mean of greater than or equal to 0.75; (iv) where processable means has oil holding capacity (OHC) of from 0.7 to 1.5; (v) where microbially released means material has common microbes below given limits (preferably free of common microbes) (vi) where flavour acceptable denotes a lipase activity (LA) and a peroxidase activity (PA) both less than or equal to 2 U/g and optionally a low degree of roasted flavour notes as defined herein. The bran-like material used in the confectionery compositions may added as a bulk ingredient to replace sugar and/or to provide confectionery fillings and/or coatings having improved hiding ability when used as layers in multilayer confectionery products.

The present invention relates to ready-to-drink cocoa milk beverage products. In particular, the invention is concerned with a protein system induced by controlled aggregation of milk proteins which imparts outstanding sensory attributes and improved physical stability of the beverage products, in particular when containing low fat and/or low sugar. A method of 5 producing such beverage and the products obtainable from the method are also part of the present invention.

The present invention relates to ready-to-drink cocoa milk beverage products. In particular, the invention is concerned with a protein system induced by controlled aggregation of milk proteins which imparts outstanding sensory attributes and improved physical stability of the beverage products, in particular when containing low fat and/or low sugar. A method of 5 producing such beverage and the products obtainable from the method are also part of the present invention.

Potassium bicarbonate is coated with an anionic or amphoteric surfactant, which is preferably a metal soap, such as calcium stearate, to inhibit caking on storage, and premature loss of carbon dioxide when mixed with acidulant, e.g. in a baking powder or self-raising flour blend. Loss of carbon dioxide in the blend may be further inhibited by coating the acidulant with surfactant. Combination of surfactant coating with an inorganic anti-caking agent such as silicon dioxide gives synergistic protection against caking of the potassium bicarbonate. Preferably the bicarbonate has D50 of between 35 and 200μ and is free from particles greater than 400μ.

Potassium bicarbonate is coated with an anionic or amphoteric surfactant, which is preferably a metal soap, such as calcium stearate, to inhibit caking on storage, and premature loss of carbon dioxide when mixed with acidulant, e.g. in a baking powder or self-raising flour blend. Loss of carbon dioxide in the blend may be further inhibited by coating the acidulant with surfactant. Combination of surfactant coating with an inorganic anti-caking agent such as silicon dioxide gives synergistic protection against caking of the potassium bicarbonate. Preferably the bicarbonate has D50 of between 35 and 200μ and is free from particles greater than 400μ.

Provided herein are methods and processes for emulsifying non-polar compounds, such as omega fatty acids. Also provided are compositions that can be prepared according to the methods and processes described herein. The compositions, for example, have a high amount of the non-polar compound, such as a large amount of omega fatty acids. The non-polar compounds are also present in very small droplets within composition. For example, the mean or median particle size of the droplets is less than about 5 m. Further, the composition includes a low amount of surfactant, such as less than about 10-15% of the surfactant.

Provided herein are methods and processes for emulsifying non-polar compounds, such as omega fatty acids. Also provided are compositions that can be prepared according to the methods and processes described herein. The compositions, for example, have a high amount of the non-polar compound, such as a large amount of omega fatty acids. The non-polar compounds are also present in very small droplets within composition. For example, the mean or median particle size of the droplets is less than about 5 m. Further, the composition includes a low amount of surfactant, such as less than about 10-15% of the surfactant.