An aerated fat emulsion comprises: from 10% to 90% by weight of water; and from 10% to 90% by weight of a fat composition, wherein the fat composition comprises: from 75% to 99% by weight of a lauric fat comprising from 35% to 65% lauric acid (C12:0); said percentages of acids referring to acids bound as acyl groups in glycerides in the fat and being based on the total weight of C8 to C24 fatty acids; and from 1% to 25% by weight of an interesterified fat comprising from 30% to 70% by weight of total stearic acid (C18:0) and arachidic acid (C20:0); from 1% to 10% by weight of palmitic acid (C16:0) and less than 2% by weight of lauric acid (C12:0), said percentages of acids referring to acids bound as acyl groups in glycerides in the fat and being based on the total weight of C8 to C24 fatty acids; and from 5% to 35% by weight of the combined amounts of StStSt and AStSt triglycerides, based on total triglycerides present in the composition, wherein St is stearic acid and A is arachidic acid.

A method for making candies comprises steps of: a) providing oil, sugar, syrup, emulsifier, protein powder and hydrated colloid; b) evenly stirring the materials in a deoxygenated environment with a pressure of 10˜50 mmHg and a temperature of 115˜125° C. to form a stuffing; c) cooling the stuffing to 24˜26° C. under a relative humidity of 10˜15% and a pressure of 10˜50 mmHg; d) increasing the pressure of the stuffing to 370˜390 mmHg, adding dormant probiotic powder into the stuffing, and evenly mixing the stuffing to form a sugar core; e) increasing to atmospheric pressure for the sugar core; f) in the absence of air, encapsulating the sugar core with a encapsulating sugar mass at a temperature of 50˜60° C. to form a probiotic sugar bar; and g) stretching the probiotic sugar bar, and then cooling down the temperature to 18-22° C. within 5 seconds and cutting the probiotic sugar bar to form candies.

A method for making candies comprises steps of: a) providing oil, sugar, syrup, emulsifier, protein powder and hydrated colloid; b) evenly stirring the materials in a deoxygenated environment with a pressure of 10˜50 mmHg and a temperature of 115˜125° C. to form a stuffing; c) cooling the stuffing to 24˜26° C. under a relative humidity of 10˜15% and a pressure of 10˜50 mmHg; d) increasing the pressure of the stuffing to 370˜390 mmHg, adding dormant probiotic powder into the stuffing, and evenly mixing the stuffing to form a sugar core; e) increasing to atmospheric pressure for the sugar core; f) in the absence of air, encapsulating the sugar core with a encapsulating sugar mass at a temperature of 50˜60° C. to form a probiotic sugar bar; and g) stretching the probiotic sugar bar, and then cooling down the temperature to 18-22° C. within 5 seconds and cutting the probiotic sugar bar to form candies.

A cake decoration that enables visual shows controlled by a controller that is either remote to the decoration or integral with the decoration.

A method for preparing a first component of a comestible composition is provided including forming an extrudate of the first component. The extrudate is cooled to a first temperature. The extruder is further cooled to a second temperature. The first temperature is greater than the second temperature.

A method for producing a confectionary product (1), comprises the steps of extruding a confectionary substance to form a confectionary string, shearing an end portion (5) from a remaining part (7) of the confectionary string (2), resting the end portion (5) on a conveying surface (8) already before the separation of the end portion (5) and completing the separation of the end portion (5) from the remaining part (7) of the confectionary string (2) while the end portion (5) is resting on the conveying surface (8).

A food product includes a shell containing at least one ingredient. The shell includes first and second shell portions. The shell is configured to be dissolved or melted into a heated liquid to release the at least one ingredient in order to form a heated beverage. The at least one ingredient includes multiple marshmallows configured to float on a top surface of the heated beverage. The shell includes at least one decorative feature disposed on an exterior surface of the shell.

The present disclosure describes an ultrasonic rotary molding system that is used to form edible compositions or food products as they move along a conveyor belt. The food products are formed by an ultrasonic rotary wheel that includes one or more cutting tools that cut, and perhaps three dimensionally mold, food product strips. The system may include a movable backing plate that is located below the point where the ultrasonic rotary wheel cuts the food product strips. The movable backing plate may be spring loaded and it may exert force upwards against the conveyor belt and in turn against the food product.

The present invention addresses the problem of providing a paste-like oily foodstuff that contains a preset amount of fats and oils, can be easily handled during preparation and yet has a heat resistance and favorable melting feeling in the mouth. The above problem has been solved by finding that a paste-like oily foodstuff, in which the yield value is increased without increasing the plastic viscosity, can be obtained by using a specific emulsifier and the thus obtained paste-like oily foodstuff has a heat resistance, favorable melting feeling in the mouth and good handling properties during preparation.

Embodiments of the invention relate to edible ink formulations comprising a fluorophore (e.g. riboflavin phosphate), articles of manufacture (e.g. an ink-jet cartridge containing any edible ink formulation(s) disclosed herein), methods for printing on a edible substrates (e.g. food or beverage) using any edible ink formulation(s) disclosed herein. Methods for manufacturing the edible ink formulation are also provided.