The invention relates to a composition for coating a frozen confection, the composition comprising, expressed in weight % (based on the total weight of the coating), 50 to 60 wt % of non-fat solids, 40 to 50 wt % of fat, which comprises a fat blend of hardening fat and liquid oil, wherein the fat blend consisting of 45 to 55 wt % of liquid fat and 55 to 45 wt % of hardening fat, and wherein the hardening fat comprises at least 8% anhydrous milk fat, preferably 8 to 22% milk fat, and wherein the composition is free from water. The invention also relates to a method for making the coating composition.

The present invention relates generally to the field of aerated fat-based confectionery material. One aspect of the invention provides an aerated fat-based confectionery material having a continuous lipid phase and a porosity of between 1 and 80%, wherein, at a temperature at which the lipid phase has a solid lipid content between 0.1 and 80, the fat-based confectionery material comprises gas bubbles having at least 50% of their surface occupied by crystals, the crystals comprising a glyceride selected from the group consisting of monoglycerides, diglycerides, triglycerides, esters of monoglycerides, esters of diglycerides and combinations of these. Further aspects of the invention are a confectionery product comprising an aerated fat-based confectionery material and a process for forming an aerated fat-based confectionery material.

The present invention relates generally to the field of aerated fat-based confectionery material. One aspect of the invention provides an aerated fat-based confectionery material having a continuous lipid phase and a porosity of between 1 and 80%, wherein, at a temperature at which the lipid phase has a solid lipid content between 0.1 and 80, the fat-based confectionery material comprises gas bubbles having at least 50% of their surface occupied by crystals, the crystals comprising a glyceride selected from the group consisting of monoglycerides, diglycerides, triglycerides, esters of monoglycerides, esters of diglycerides and combinations of these. Further aspects of the invention are a confectionery product comprising an aerated fat-based confectionery material and a process for forming an aerated fat-based confectionery material.

A coated particle may include a food particle coated by a carbohydrate. The coated particle may have an average particle size from about 10 m to about 250 m. The food particle may include a relatively bitter component (e.g., cocoa) and a protein component (e.g., whey protein, soy protein, rice protein, fava bean protein, and/or milk protein). A weight ratio of bitter component to protein component may be about 3 or greater. The food particle may also include a starch, such as rice starch. Additionally, the coated particle may have a surface area fraction of the carbohydrate that is greater than an average weight fraction of the carbohydrate. For example, the surface area fraction of the carbohydrate may be from about 30% to about 80%. In addition, the coated particle may have a substantially non-spherical and irregular shape. The coated particle may be prepared via a spray drying process.

An edible and 3D printable ink composition is disclosed herein, which includes a chocolate-based material including a chocolate syrup, a chocolate paste, or a combination thereof, and cocoa powder present in an amount ranging from 5 to 25 w/w %, wherein the edible and 3D printable ink composition is both printable and remains in a single phase at a temperature ranging from 20 C. to 30 C. A method of 3D printing the edible and 3D printable ink composition, and a system operable for printing the edible and 3D printable ink composition, are also disclosed herein.

The present invention discloses edible granules with varied flavors, relating to the technical field of food. The present invention comprises carbohydrates, water, emulsifiers, salt, sweeteners, flavor enhancers, acidity modifiers, food flavors, food colors and antioxidants, wherein the amounts of them are: carbohydrates 70-80%, water 10-20%, emulsifiers 0-10%, salt 0-10%, sweeteners 0-10%, flavor enhancers 0-2%, acidity modifiers 0-2%, food flavors 0.01-1%, food colors 0-0.5% and antioxidants 0.01-0.04%. In the present invention, through different components of carbohydrates, water, emulsifiers, salt, sweeteners, flavor enhancers, acidity modifiers, food flavors, food colors and antioxidants, edible granules with varied flavors may be prepared without adding natural substances in the granules of the present invention, so that the problem that the existing natural seasonings have a single taste and are difficult to prepare is solved.

The invention relates to a process for the manufacture of a coated frozen confection, the process comprising the steps of (a) manufacturing a frozen confection, followed by; (b) imparting thermal energy to the surface of the frozen confection, sufficient to cause at least partial melting of the surface of the frozen confection, followed by; (c) allowing the surface of the frozen confection to refreeze, followed by; (d) coating the frozen confection in a liquid coating, which subsequently solidifies to provide a solid coating.

The invention relates to A frozen confection coating composition, the composition comprising, expressed in weight % based on the total weight of the coating, 35-75 wt. % of non-interesterified fat, preferably 40-65 wt. % of non-interesterified fat which comprises a fat blend of medium soft fat and liquid oil, and 25-65 wt. % of non-fat solids, preferably 35-60 wt. % of non-fat solids, wherein, the coating composition comprises, less than 35 wt. % of saturated fatty acid, preferably less than 30 wt. % of saturated fatty acids 15-50 wt. %, preferably 18-30% of monounsaturated fatty acid and less than 10%, preferably less than 5% of polyunsaturated fatty acid, and wherein the medium soft fat has above 40%, preferably between 50-70%, of solid fat content at 20 C., and medium soft fat has 54-60% of saturated fatty acid, and wherein the fat blend in the coating crystallizes in a first and second crystallization step at a temperature below 15 C. and displays a solid fat content of 30-50% within 2 min. of crystallization and a solid fat content of 40-70% after 60 min. of crystallization. The invention also relates to a process of making this composition and a frozen confection at least partly coated with the composition.

The present invention provides a composite comestible product comprising distinct first and second components, wherein the first component has a total fat content comprising a randomly interesterified fat, the randomly interesterified fat having a saturated fat content of from 35 to 55 wt % by weight of the randomly interesterified fat, wherein the total fat content comprises from 20 to 50 wt % saturated fat and less than 3 wt % trans fatty acids by weight of the total fat content, and wherein the second component is a chocolate component comprising one or more sources of cocoa butter (CB) or cocoa butter equivalent (CBE).

In an illustrative embodiment, systems for designing and producing customized food products include receiving a request to design a customized food product containing a printed edible medium. The systems may calculate, based on product inventory at a preferred bakery, a preparation lead time for the food product where the product inventory includes availability of printed edible media substrates. The systems may present customization user interface screens that provide customization options for the food product. The systems may convert customization option selections made at the customization user interface screens into decorating instructions for the food product and transmit the decorating instructions to the bakery. The systems may determine a position in a preparation queue for the food product based in part on attributes of pending food product orders in a preparation queue at the bakery.