The present invention relates to a barrier coating composition for coating frozen confection, comprising, expressed in weight % based on the total weight of the coating, 40-60 wt. % of a fat or fat blend, preferably 45-55 wt. %, said fat or fat blend comprising the following fatty acids: 45<=C16:0<=55 wt. %, 4<=C18:0<=10 wt. %, 30<=C18:1<=39 wt. %, 3<=C18:2<=7 wt. % linoleic acid, and said fat blend comprising a solid fat profile comprising: 75%<=N 0<=95%; 60%<=N 10<=90%; 30%<=N 20<=60%; 18%<=N 25<=35%; 0%<=N 30<=12%; and 0%<=N 35<=5%, and said barrier coating having yield stress of 0.90 to 1.65 Pa. The invention also relates to the use of such a fat or fat blend for barrier coatings, a method of preparing the coating composition and a wafer at least partly coated with the barrier coating.

A method and popping machine for popping different types of popcorn kernels is provided, where the different types of popcorn kernels include at least mushroom type popcorn and butterfly type popcorn. The method includes determining a selected one of the different types of popcorn kernels to be popped in a first popping cycle based upon a selection made by an operator, and then retrieving and using a first set of predetermined cooking temperature set points associated with cooking the selected one of the different types of popcorn kernels during performance of the first popping cycle. The cooking temperature set points determine several items which may include when to heat a kettle of the popping machine, when to signal an operator to take action such as loading kernels or dumping popped popcorn, and when to add sugar if a sweetened popped popcorn type is desired.

A filling head comprising: a housing having a lower nozzle exit, a first material inlet, a second material inlet and a reciprocatable piston movable within the housing; the piston having a) an outer wall and upper and lower ends; b) a first internal material flow channel connecting an entry in the outer wall to an exit in the lower end, c) a second internal material flow channel connecting an entry in the outer wall to an exit in the lower end, and; wherein the exit of the first channel is annular, surrounding the exit of the second material flow channel; the piston, housing and inlets being positioned and dimensioned such that the piston in relation to the housing has: (1) an upper position wherein material flows from both first and second inlets are blocked by the piston outer wall; (2) a mid position wherein the first material inlet is in communication with the first internal material flow channel entry but the second material inlet is blocked by the piston outer wall; (3) a lower position wherein the first material inlet is in communication with the first internal material flow channel entry and the second material inlet is in communication with the second internal material flow channel entry.

The present application discloses long-lasting cooling formulations which comprise at least one cooling agent and are suitable for use in confectionery products. In certain, non-limiting embodiments of the disclosed formulations, the cooling agent is N,2,3-Trimethyl-2-isopropylbutamide (WS-23), (1R,2S,5R)-N-(4-Methoxyphenyl)-5-methyl-2-(1-methylethyl)cyclohexanecarboxamide (WS-12), N-(Ethoxycarbonylmethyl)-3-p-menthanecarboxamide (WS-5), or mixtures thereof. In certain embodiments, the disclosed formulations provide enhanced cooling attributes for mints and chewing gum.

A confectionery composition comprising an edible shell having a filling therein. The filling comprises a fat system and has a solid fat content (SFC) of 35 to 65% at 0 C. and 1 to 8% at 30 C. In particular embodiments the fat system is prepared from palm oil midfraction. The filling is soft at low temperature so that it is palatable. However, it does not melt at ambient temperatures and therefore does not require refrigeration/freezing for storage or transport.

The present invention relates to a method of preventing, inhibiting or mitigating bloom in a filled chocolate product, said method comprising: a) An inline heating step comprising at least one of heating the chocolate shell at a heating temperature of at least 25 C., heating the center-filled chocolate shell at a heating temperature of at least 25 C. and heating the filled chocolate product at a heating temperature of at least 25 C. and said method comprising at least one of b) A shell cooling step comprising cooling said chocolate shell at a cooling temperature below 20 C., c) A filling cooling step comprising cooling said center-filled chocolate shell at a cooling temperature below 20 C., d) A final cooling step comprising cooling said filled chocolate product at a cooling temperature below 20 C., said in line heating step being comprised in at least one of step b)-d) or being arranged between step b) and c) or between steps c) and d). The invention further relates to products obtained by said method, and a system for obtaining such product.

The present invention relates to water-based coatings for frozen confectioneries intended for animal consumption. In particular, it relates to the use of starch and protein in the preparation of a low fat water-based coating for a frozen confectionery.

The present invention relates to water-based coatings for frozen confectioneries intended for animal consumption. In particular, it relates to the use of starch and protein in the preparation of a low fat water-based coating for a frozen confectionery.

A frozen confection product comprising from two to five frozen confections, wherein from one to five of the frozen confections is an aerated frozen confection comprising from 0.3 wt % to 1.5 wt % protein, wherein from 25 wt % to 100 wt % of the protein is plant protein and from 0 wt % to 75 wt % is dairy protein, wherein the frozen confection product comprises a core and a coating, and from 10% to 100% of the outer surface of the frozen confection product comprises the aerated frozen confection comprising from 0.3 wt % to 1.5 wt % protein, wherein the coating comprises from one to four frozen confections and each frozen confection is in contact with from 10% to 50% of the surface area of the core.

Cold desserts incorporating gelatin-based (gummy) components are provided in this paper. In particular, stick-mounted cold desserts, edible-cone cold desserts, and container-served desserts with gelatin-based components are described. The gelatin-based components of these desserts are made from gelatin-based candy material that is specially-formulated for consumption at cold temperatures. The gelatin-based components may be used with other components of a cold dessert such as with flavored water ice, ice cream, sherbet, sorbet, and the like as described throughout this paper.