Aerated edible water-in-oil emulsion with an overrun of from 2 to 200% comprising from 10 to 85 wt. % of liquid oil; from 0.5 to 50 wt. % of hardstock fat; from 10 to 85 wt. % of water-phase; from 0.45 to 3 wt. % of lecithin.

A method of preparing a lysolecithin composition. The method includes the steps of (a) providing a lecithin mixture including a lecithin, water, and ethanol, (b) adding phospholipase A1 or A2 to the lecithin mixture; and (c) allowing an enzymatic reaction to occur so that at least 70% of the phospholipids in the lecithin are converted to lysophospholipids to obtain the lysolecithin composition. Also disclosed are a lysolecithin composition thus prepared, a flavor emulsion prepared from the lysolecithin composition, and a liquid beverage or liquid beverage concentrate containing the lysolecithin composition.

A method of preparing a lysolecithin composition. The method includes the steps of (a) providing a lecithin mixture including a lecithin, water, and ethanol, (b) adding phospholipase A1 or A2 to the lecithin mixture; and (c) allowing an enzymatic reaction to occur so that at least 70% of the phospholipids in the lecithin are converted to lysophospholipids to obtain the lysolecithin composition. Also disclosed are a lysolecithin composition thus prepared, a flavor emulsion prepared from the lysolecithin composition, and a liquid beverage or liquid beverage concentrate containing the lysolecithin composition.

Disclosed herein is at least one low protein yogurt composition comprising at least one dairy ingredient, dairy alternative ingredient, or mixture thereof, and a texturizing agent comprising an inhibited starch and a non-granular, enzymatically-debranched waxy starch selected from waxy maize, waxy tapioca, and combinations thereof, wherein said low protein yogurt comprises less than 2.9% dairy protein content, and at least one method for making these low protein yogurt compositions. Also disclosed herein is a texturizing agent comprising an inhibited starch and a non-granular, enzymatically-debranched waxy starch selected from waxy maize, waxy tapioca, and combinations thereof.

The present invention provides a method for producing a low trans-fatty acid butter-like food characterized by including: respectively heating an animal milk and a vegetable processed fat having a melting point of from 30° C. to 35° C., to a temperature equal to or higher than the melting point of the vegetable processed fat; adding from 40% by mass to 60% by mass of the heated vegetable processed fat to from 40% by mass to 60% by mass of the heated animal milk and performing emulsification; cooling an animal milk emulsion obtained by the emulsification; subjecting a creamy substance obtained by the cooling to churning or cavitation, and separating the creamy substance into an aqueous phase and an oil phase; and kneading and homogenizing an oil phase solid obtained by removing the aqueous phase.

Methods of forming a gelatinous food product, forming a whitened food product, increasing viscosity, increasing water binding, emulsifying, or sweetening a food product, comprising combining paramylon from Euglena sp. with a food composition, to form the food product thereof. The disclosure also relates to methods of encapsulating an oil with paramylon, to form an encapsulated oil thereof.

A supplemental spread including at least one of block chain amino acids (“BCAAs”), essential amino acids (“EAAs”), creatine, caffeine, taurine, tyrosine, alpha glycerylphosphorylcholine (alpha-GPC), or combinations thereof. The supplemental spread can have a viscosity ranging from about 450 centipoise to about 250,000 centipoise at a temperature ranging from about 20° C. to about 25° C.

The invention belongs to the technical field of phospholipid processing, in particular to a self-aggregating hydrous phospholipid and a preparation method thereof. The self-aggregating hydrous phospholipid, the main components of the self-aggregating hydrous phospholipid are phospholipids, oil and water, the water content is 70-80 g/100 g, and the acetone-insoluble content on a dry basis is 92.5-95.5 g/100 g. Preferably, the self-aggregating hydrous phospholipid is a brown translucent fluid. The present invention is used to overcome the defects of low acetone-insoluble content of the hydrous phospholipid prepared by the existing method and the long-term dependence of the industry on the solvent method to prepare powder phospholipid, and to solve the technical problem that the hydration method powder phospholipid cannot realize industrial production.

The invention relates to a process for the preparation of an edible dispersion comprising oil and structuring agent and one or more of an aqueous phase and/or a solid phase, in which the dispersion is formed by mixing oil, solid structuring agent particles and the aqueous phase and/or the solid phase, wherein the solid structuring agent particles have a microporous structure of submicron size particles.

The invention relates to an edible water-in-oil emulsion comprising a fat-phase comprising a first hardstock and a second hardstock, wherein said fat-phase has a total amount of hardstock of from 2 to 60 wt. %, based on the total weight of the fat-phase, and a water-phase, wherein part of the water-phase is dispersed as droplets, wherein the droplets are stabilized by said first hardstock; and wherein part of the water-phase is dispersed as droplets, wherein the droplets are stabilized by said second hardstock, wherein said first hardstock comprises more than 25% of HHH-triglycerides, and a combined amount of H2U and H2M triglycerides of not more than 110% of the HHH-triglycerides of said first hardstock, wherein said second hardstock comprises less than 22% of HHH-triglycerides, and a combined amount of H2U and H2M triglycerides of more than 140% of the HHH-triglycerides of said second hardstock, wherein H denotes saturated chains with 16 or more carbon atoms or an elaidic acid residue, wherein U denotes unsaturated chains and wherein M denotes saturated chains with 14 or less carbon atoms. The invention further relates to a process for the manufacture of such edible water-in-oil emulsions.