Provided is an oil composition comprising, by weight based on the weight of the composition, (a) 2-12% of one or more ethylcellulose polymers; (b) 2-12% of an additive selected from the group consisting of one or more fatty acids, one or more monoglycerides of fatty acids, one or more diglycerides of fatty acids, and mixtures thereof; (c) 2-12% of one or more starch; and (d) 64-94% of one or more oils. Also provided is a margarine-type composition and a puff pastry composition, both comprising ethylcellulose polymer, an additive (b), and starch.

Edible fat-containing product comprising 30-99 wt. % of a fat phase, wherein the product further comprises 0.01-3 wt. % of a plant-based protein and 0.05-3 wt. % of a sugar, the remainder being an aqueous phase up to 100 wt. %, wherein the weight percentages are based on the total weight of the product, a method for its preparation and the use of sugar in an edible fat-containing product as a browning agent.

The technology disclosed in this specification pertains to a heat-moisture treated fava bean protein concentrates having between 50% and 73% and a denaturation enthalpy from about 5.5 and 6.5 J/g. This is limited degree of denaturation. The disclosed heat-moisture treated fava bean protein concentrates are useful as emulsifiers, and good solubility in water, and reduced flavor.

A system and method for the continuous production of brown butter involves concentrating butter while retaining solids non-fat in the butter, and continuously transferring and heating the concentrated butter to cause the solids non-fat in the butter to react in a maillard reaction to form a brown butter product. The system may use one or more of a heating vessel, an evaporator and a reaction vessel to form the brown butter in the continuous process. A brown butter product derived from butter includes reacted solids non-fat particulates from a maillard reaction suspended by nascent fat crystals nucleated about the reacted solids non-fat particulates and by large fat crystal structures joined to the nascent fat crystals.

Provided is an oil-and-fat-containing composition which is for food and in which oxidized odor of oil and fat caused by 1-hexanol or 1-pentanol is suppressed. This composition is an edible oil-and-fat-containing composition containing 1-hexanol and/or 1-pentanol, further contains hexanal, and satisfies the following (A) and (B). (A) The content of the hexanol is 10 ppb by mass to 100 ppm by mass. (B) α/β is 1-10,000 and/or α/γ is 1-10,000, where, regarding peak areas measured through SPME-GC/MS at a sample temperature of 80° C., the peak area (m/z=82) of the hexanal is defined as α, the peak area (m/z=84) of the 1-hexanol is defined as β, and the peak area (m/z=70) of the 1-pentanol is defined as γ.

An enzyme-modified egg yolk product can be provided in liquid or powder form. It can be used to make a mayonnaise with a very high viscosity, even in the absence of any thickening additives, and exhibiting good stability at temperatures of greater than 90° C. (e.g., 200° F.).

An emulsion composition includes water, an oily component, gum ghatti and a modified starch. The content of the gum ghatti is 32% by mass or less and the content of the modified starch is 500 parts by mass or less relative to 100 parts by mass of the gum ghatti. The emulsion composition has excellent emulsion stability.

The present invention is directed to an extruded food product constituent composed of a gelling food product constituent extrudate and method of extruding a gelling food product constituent extrudate used as an ingredient of a food product normally using a gelling gum, like guar gum, xanthan gum or carrageenan as an ingredient. The gelling food product extrudate is composed of cold-water soluble gelling pregelatinized starch formed of starch in a starch-containing admixture modified by extrusion at extrusion pressures greater than 2000 PSI that gels when mixed with water, which preferably also modifies additional starch or starches in the admixture into a plurality of different molecular weight polymers of a cold-water soluble gellant that polymerize forming a gel when mixed with water, preferably forming a hydrocolloid gel, which more preferably is a self-gelling gel, which even more preferably is a thermo-reversible gel crosslinked by one or more proteins freed by or modified during extrusion. Preferred admixtures configured to produce gelling extrudates include admixtures composed of cereal grains, including sorghum, wheat, oats, barley and/or corn, and/or legumes, including chick pea, yellow pea, pea and/or lentils with legume containing admixtures producing gelling extrudates that form thicker gels whose viscosity increases over time that are well suited for use in non-dairy dairy substitutes like non-dairy butter, non-dairy creamers, non-dairy whipped cream, non-dairy yogurt, non-dairy cream cheese, non-dairy cheese, and non-dairy ice cream.

The present invention provides compositions of soy protein gel fibers, soy protein fiber membranes, and soy protein films. The present invention also provides methods of making the soy protein compositions and also uses of the compositions.

A method of preparing a cannabinoid-containing additive includes preparing an oil mixture by combining a cannabinoid oil and a carrier oil, preparing a water base by combining water and an emulsifier blend, and combining the oil mixture and the water base to form a liquid cannabinoid emulsion. The emulsion may be dried to form a solid. The cannabinoidcontaining additive, either in the liquid or solid form, is combined with a food and beverage product.