Disclosed is a chocolate spread or chocolate filling composition comprising one or more of the ingredients selected from hazelnut paste, cocoa butter, cocoa mass, cocoa powder, milk fat, milk powder, vanilla, and lecithin; 2% to 40% by weight of a fat composition; and 30% to 50% by weight of sugar, wherein the fat composition comprises at least 40% by weight of interesterified shea olein having an oleic acid content of at least 50% by weight and a stearic acid content of at least 25% by weight, based on the total C12 to C20 fatty acids present in the interesterified shea olein, and wherein the interesterified shea olein has a solid fat content of at least 10% at 10 C., at least 6% at 20 C., and at least 3% at 30 C.

In some embodiments, a protein-coated product includes an edible center and a protein-fortified coating including at least 30% by weight of protein. In some embodiments, the protein-fortified coating includes 30% to 70% by weight of protein with the protein-fortified coating being 20 to 60% by weight of the protein-coated product. A method of making a protein-coated product includes providing an edible center, preparing a syrup, preparing a dry blend including at least 30% protein, by weight, coating the edible center with alternating layers of the syrup and the dry blend to form a coated product, and modifying the coated product to form the protein-coated product.

The disclosure relates to a process for producing a confectionery product comprising heat resistant chocolate or a heat resistant compound mass and to the confectionery product, which is produced by this process. The process utilizes spraying water and/or a polyol (such as a sugar alcohol or a sugar) solution onto chocolate or a compound mass thereby inducing the formation of heat resistant chocolate or a heat resistant compound mass.

The invention relates to a method for producing a chocolate mass suitable for producing reduced-calorie chocolate food products. The method includes the following steps. A cocoa butter emulsion is prepared. Separately, a cocoa liquor/erythritol crumb is prepared. The crumb is then added to cocoa liquor or cocoa butter, and dietary fibre, to prepare a chocolate composition intended to produce dark chocolate or milk chocolate final products, depending on additional ingredients. The chocolate composition is mixed with the emulsion to produce a chocolate mass suitable for molding, forming, or other processing into final products. The process provides improvement in organoleptic indicators, such the intensity of the chocolate flavour, absence of off-flavours and aftertaste, natural sweetness and chocolate texture, with reduced energy value or calorie count, and also improvement in such physical properties as viscosity, yield stress, contraction degree upon crystallization, and hardness of a final product.

The invention relates to a chocolate mass suitable for producing reduced-calorie chocolate food products. The chocolate mass comprises a chocolate composition and an aqueous cocoa butter emulsion. The chocolate composition includes a crumb prepared using cocoa liquor and erythritol, cocoa liquor or cocoa butter, and dietary fibre, as well as additional ingredients depending on whether the final product is intended to be dark chocolate or milk chocolate. The emulsion contains cocoa butter and an aqueous phase. The resulting product provides improved organoleptic parameters, such as intensity of chocolate flavour, absence of off-flavours and aftertaste, natural sweetness and chocolate texture, with a reduction of energy value (calories), and also improved physical properties as viscosity, yield stress, contraction degree upon crystallization, and hardness of a final product.

Disclosed is a method for processing cocoa beans or nibs comprising the steps of: (a) adding water to cocoa beans or nibs to form a suspension; (b) wet grinding said suspension; (c) subjecting said suspension to a heat treatment at a temperature of 70? C. or less; (d) separating the suspension into: a water phase (heavy phase), a fat phase (light phase) comprising cocoa butter, and a solid phase comprising cocoa powder and fluid components; (e) continuously separating the fluid components from the solid phase obtained in step (d) to obtain cocoa aroma and cocoa powder by supplying a flow of said solid phase to a mixing device; wherein the mixing device comprises: a cylindrical, tubular body with a horizontal axis having an inlet opening for the solid phase, an outlet opening for the dried solid phase and an optional outlet opening for a vapor phase comprising cocoa aroma; end plates closing the tubular body at its opposite ends; a coaxial jacket heating or cooling the internal wall of the tubular body to a temperature of from 55? C. to 150? C.; and a bladed rotor, which is supported for rotation in the tubular body, its blades being arranged as a helix and oriented for centrifuging the solid phase and simultaneously transporting it towards the outlet opening.

Disclosed is a method for processing cocoa beans or nibs comprising the steps of: (a) adding water to cocoa beans or nibs to form a suspension; (b) wet grinding said suspension; (c) subjecting said suspension to a heat treatment at a temperature of 70? C. or less; (d) separating the suspension into: a water phase (heavy phase), a fat phase (light phase) comprising cocoa butter, and a solid phase comprising cocoa powder and fluid components; (e) continuously separating the fluid components from the solid phase obtained in step (d) to obtain cocoa aroma and cocoa powder by supplying a flow of said solid phase to a mixing device; wherein the mixing device comprises: a cylindrical, tubular body with a horizontal axis having an inlet opening for the solid phase, an outlet opening for the dried solid phase and an optional outlet opening for a vapor phase comprising cocoa aroma; end plates closing the tubular body at its opposite ends; a coaxial jacket heating or cooling the internal wall of the tubular body to a temperature of from 55? C. to 150? C.; and a bladed rotor, which is supported for rotation in the tubular body, its blades being arranged as a helix and oriented for centrifuging the solid phase and simultaneously transporting it towards the outlet opening.

An adjusting and control method for 3D printing precise shape forming of instant recuperation mashed potato relates to the field of new food processing technologies. First, a potato is cleaned, peeled, and sliced to be steamed. Subsequently, the steamed potato slices are pulped until a pulp is smooth and shiny. A colloid is added, and after mixing the pulp with the colloid, the mixture is steamed to cook the potato and fully dissolve the colloid. After the mixture is cooled to room temperature, white chocolate powder is added to the mixture. To implement refined printing of recuperation mashed potato, printing temperature, a moving speed of the nozzle, a discharging speed and so on are selected and determined to perform printing. Precision of a print object may reach more than 95%, and the object does not collapse within 40 min to 60 min after being printed.

An adjusting and control method for 3D printing precise shape forming of instant recuperation mashed potato relates to the field of new food processing technologies. First, a potato is cleaned, peeled, and sliced to be steamed. Subsequently, the steamed potato slices are pulped until a pulp is smooth and shiny. A colloid is added, and after mixing the pulp with the colloid, the mixture is steamed to cook the potato and fully dissolve the colloid. After the mixture is cooled to room temperature, white chocolate powder is added to the mixture. To implement refined printing of recuperation mashed potato, printing temperature, a moving speed of the nozzle, a discharging speed and so on are selected and determined to perform printing. Precision of a print object may reach more than 95%, and the object does not collapse within 40 min to 60 min after being printed.

A chocolate for frozen desserts having manufacturing suitability when combined with the frozen desserts, good hardness, good flavor, and good melting feeling in the mouth is provided. The chocolate for frozen desserts comprises 15% by mass or more of a cacao component, 3 to 9% by mass of cocoa butter, and 43 to 50% by mass of oils or fats, wherein the oils or fats comprised in the chocolate satisfy the following conditions (a) to (c): (a) comprise 10% by mass or less of a straight-chain saturated fatty acid having 14 or less carbon atoms as a constituent fatty acid; (b) comprise 10 to 25% by mass of a straight-chain saturated fatty acid having 16 to 18 carbon atoms as a constituent fatty acid; and (c) comprise 65 to 85% by mass of an unsaturated fatty acid as a constituent fatty acid.