The present disclosure relates to a composition comprising two or more hydrocolloid gums, such a pectin and gellan gum; a coconut-based fatty component, such as coconut cream; and water; in which the composition has a pH less than 7 and is an oil-in-water emulsion. The composition provides a ready-to-drink beverage that is a homogenous emulsion. The present disclosure is further related to a method of preparing the composition, including combining the two or more hydrocolloid gums, the coconut-based fatty component, and water to form a first mixture, blending the first mixture to provide a homogenous first mixture, adding additional water to the homogenous first mixture to provide a second mixture; and blending the second mixture to provide a homogenous second mixture.

This invention relates generally to cellulose nanocrystal-based emulsions that can serve as a spray adjuvant for improved agrochemical application efficiency. More particularly, the cellulose nanocrystal-based emulsions are nanocellulose-stabilized Pickering emulsions having a semi-liquid formulation of colloidal cellulose nanocrystals and biopolymers that can substitute currently used surfactants and drift reducing agents in agrochemicals. The cellulose nanocrystal-based emulsions are suitable with both water soluble and oil soluble active ingredient chemistries, and the shear characteristics of the emulsions make them suitable for oil in water-based spray applications. Droplet size distribution can be tuned by changing the ingredient concentrations, thus helping control particle drift. Moreover, a stable cross-linked network formation facilitates the entrapment and encapsulation of volatile agrochemical chemistries, thus preventing their volatilization and reducing vapor drift.

The invention relates to a process for manufacturing oil-in-water emulsions with a PFATs value that remains below 0.05% for at least 24 hours, preferably for at least 48 hours after admixing the emulsions with an amino acid and a glucose solution suitable for parenteral administration.

The present disclosure relates to oat-based peanut butter-flavored compositions and methods of making such compositions. In particular, a method is disclosed of roasting substantially intact groats until CIELAB L*-value change per minute, and CIELAB b*-value change per minute achieve a negative slope to produce roasted oats having a peanut butter flavor. Compositions including roasted oats having a peanut butter flavor are also disclosed.

The present invention relates to a two-step emulsification process for preparing a lipid and protein component-containing composition comprising large lipid globules, preferably coated with polar lipids, and to the compositions obtained thereby. Optionally, the lipid and protein component-containing composition is spray-dried. The obtained compositions are for feeding infants and young children.

Suggested is a delivery system for food additives, comprising or consisting of the following components: (a) at least one food additive dissolved in a solvent and (b) at least one emulsifier and/or at least one hydrocolloid dissolved in water,
characterized in that the delivery system is an oil-in-water emulsion.

Water-based release coatings are disclosed. The water-based release coatings include a homogenous blend of water, a surfactant comprising saponin glycosides, and lecithin. The mixture of saponin glycosides are preferably derived from the Quillaja plant. The release coatings can be used for reducing or preventing build-up on a cooking surface.

Methods and compositions for the production of non-meat consumable products are described herein. A meat substitute is described which is constructed from a muscle analog, a fat analog, and a connective tissue analog.

This document relates to food products containing highly conjugated heterocyclic rings complexed to an iron ion and one or more flavor precursors, and using such food products to modulate the flavor and/or aroma profile of other foods. The food products described herein can be prepared in various ways and can be formulated to be free of animal products.

A lipid composition includes, by weight of the lipid composition: from 30 wt % to 70 wt % a first lipid component; from 10 wt % to 40 wt % a sweetening substance; from 5 wt % to 20 wt % water; from 0.1 wt % to 1.2 wt % an emulsifier; and 1.5 wt % to 11 wt % a second lipid component. The emulsifier has a SFA content of less than 90 wt %. The second lipid component has a SFA content of at least 90 wt %, and fully saturated fatty acids with a carbon chain of more than 16 carbons account for at least 33.3 wt % of the SFA content of the second lipid component by weight. The molar amount of the second lipid component accounts for from 2.2 mol % to 15 mol % of the total molar amount of the first lipid component, the emulsifier and the second lipid component.