The present disclosure provides a flavored oil and a food containing the flavored oil. The flavored oil according to the present disclosure contains: (A) one or more ingredients selected from yeast-derived substances and protein hydrolysates; and (B) a spice. The present disclosure also provides a method for manufacturing the flavored oil, said method comprising the steps of: A) adding the one or more ingredients selected from yeast-derived substances and protein hydrolysate, and the spice to the oil or fat to prepare a mixture; B) heating the mixture prepared in step A) whilst stirring the same; and C) cooling the product obtained in step B) to room temperature.

An emulsified composition, which allows fat and oil to be easily and uniformly dispersed in a food or drink product when added to the food or drink product, is provided.

The present invention provides an emulsified composition for adding fat and oil to a food or drink product, wherein the emulsified composition contains fat and oil, an ionic surfactant, and a polyhydric alcohol, a content of the fat and oil is 5% by mass or more and 65% by mass or less with respect to a total amount of the emulsified composition, a content of the ionic surfactant is 0.3% by mass or more and 6.0% by mass or less with respect to the total amount of the emulsified composition, the ionic surfactant contains at least lecithin and/or lysolecithin, the emulsified composition has a specific gravity of 1.0 or more at 20 C. and a viscosity of 60,000 mPa.Math.s or less at 20 C., and a difference of L2 value-L1 value calculated by the following definition at 20 C. is positive: L1 value: lightness value of the emulsified composition; L2 value: lightness value of the emulsified composition obtained by adding 100 times by mass of fresh water to the emulsified composition.

Microparticles include a matrix of an encapsulating material, in which are dispersed particles of a low melting point fat and a bioactive material, such as one or more probiotic bacteria. The microparticles are formed by preparing an emulsion of melted low melting point fat in an aqueous mixture of the encapsulating material, cooling the emulsion below the melting point of the low melting point fat, dispersing the bioactive material in the emulsion and spray drying the emulsion. The particles of solid low melting point fat are believed to protect the bioactive material from heat damage during the spray drying process.

A method comprising: (a) bringing water and oil to a temperature above the melting point of the oil; (b) combining oil and water in a ratio (W/W) between 2:1 and 5.7:1 (c) adding 0.5% to 2% W/W of Canna arrowroot powder relative to total weight of oil and water; (e) mixing to form an emulsion.

An edible and thermoreversible oleogel comprising an oil or mixture of oils, grease or mixtures of fats and a structuring agent or mixture of structuring agents on the basis of a distilled monoglyceride of saturated fatty acid having from 12 to 24 carbon atoms that contains more than 90% by weight of monoglycerides, the monoglycerides of the saturated fatty acid are at least 40% by weight of monoglycerides of stearic acid and at least 30% by weight of monoglycerides of palmitic acid. The oleogel is prepared by the combination of oil, grease, and the structuring agent followed by a heating of the mixture, which is then cooled to obtain the oleogel. The resulting oleogel can be used as a substitute for fat in food products.

An edible and thermoreversible oleogel comprising an oil or mixture of oils, grease or mixtures of fats and a structuring agent or mixture of structuring agents on the basis of a distilled monoglyceride of saturated fatty acid having from 12 to 24 carbon atoms that contains more than 90% by weight of monoglycerides, the monoglycerides of the saturated fatty acid are at least 40% by weight of monoglycerides of stearic acid and at least 30% by weight of monoglycerides of palmitic acid. The oleogel is prepared by the combination of oil, grease, and the structuring agent followed by a heating of the mixture, which is then cooled to obtain the oleogel. The resulting oleogel can be used as a substitute for fat in food products.

A spreadable plant oil based product is described to include a plant based liquid oil blended with a structuring oil to provide a spreadable product at refrigerated temperatures and a spreadable and stable product at room temperatures. In one or more aspects, the spreadable product is processed with mixing, cooling, shearing, and aeration techniques to provide spreadability not found through mixture of the ingredients alone.

A pet food product includes a food substrate manufactured by extrusion, baking or other process involving heat. The pet food product includes less than 10% of hemp oil by weight, and preferably less than 5% by weight. The hemp oil has cannabinoids, including acidiccannabinoids. The acidic cannabinoids have a concentration of less than 100 parts per million, and preferably between 10-40 parts per million in the hemp oil. The acidic cannabinoids include cannabidiolic acid (CBD-A) and cannabidiol (CBD) in a ratio of at least 1:1, and preferably 3:1, or greater. An antioxidant is added to the hemp oil to inhibit oxidation of the acidiccannabinoids including the (CBD-A). The pet food product includes a second oil blended with the hemp oil. The antioxidant and the second oil cooperate to inhibit oxidation of the acidic cannabinoids.

The present invention provides a method for preparing a filled bakery product, the method comprising: providing a filling composition comprising at least one powdered food ingredient and a fat blend comprising from 15 to 67 wt. % of a temper hard fat and from 85 to 33 wt. % of a liquid oil, tempering the filling composition to form a tempered filling composition, depositing the tempered filling composition on to at least one surface of a bakery product to form a filled bakery product, wherein the surface of the bakery product has a temperature of less than 36 C., and actively cooling the deposited filling composition, wherein in the step of depositing the tempered filling composition, the tempered filling composition is deposited at a deposition temperature of from 20 to 33 C. and, in the step of actively cooling the deposited filling composition, the deposited filling composition is cooled to a temperature of at least 4 C. below the deposition temperature, wherein the temper hard fat has a solid fat content of at least 60 wt. % at 20 C., wherein the liquid oil has a solid fat content of less than 15 wt. % at 20 C., and wherein the fat blend has a saturated fatty acid residue content of from 16 to 42 wt. % and a polyunsaturated fatty acid residue content of less than 40 wt. %, based on the total weight of fatty acid residues of the fat blend.

A nut butter spread is described to include nut portions blended in a nut butter base. The nut portions are derived from nuts having been finished (e.g., prior to introduction to the nut butter base) via a slicing operation.