A food process line and method are provided for processing food in a food process line. The food process line includes at least two of the following process line stations: a food preparation station, cold store, pump station or forming station for a pumpable food mass, or a dry coater, wet coating device, fryer, heater or freezer for the discrete food products. In each process line station at least one process step is carried out, the process line station having one or more actuators and/or one or more sensors. The food process line comprises an interstation control system configured to control an actuator of a first process line station on the basis of data from a sensor of a second process line station.

A frozen food product according to the present application comprises: a frozen food; a food container having formed therein an inner space for accommodating the frozen food and formed of an edible material; and a packaging material including a first packaging material surrounding the frozen food and disposed between the food container and the frozen food, and a second packaging material surrounding the food container, in order to prevent moisture from being transferred to the food container, wherein the packaging material generates heat by means of microwaves.

An object of the present invention is to provide a molded food product obtained by molding and heat-treating a raw material for molded food products, wherein the molded food product has excellent binding property and water-holding property without necessarily using a phosphate salt or egg white. A raw material for a molded food product comprising: a composition for processing a molded food product comprising an aqueous dispersion or hydrosol of a thermocoagulable β-1,3-glucan such as curdlan and oil or fat; and a food material, is molded and heated to obtain the molded food product.

Provided is a method for producing a noodle-like fried vegetable food product which is effectively prevented from damage such as cracking and breaking in a packaging step in the process of production of the noodle-like fried vegetable or during transportation and which, when reconstituted with hot water, has the texture of the original vegetable and can be eaten like noodles; and such a noodle-like fried vegetable food product. A method for producing a noodle-like fried vegetable food product according to one embodiment comprises forming a noodle-like vegetable by cutting a vegetable into a noodle-like shape; providing an oil frying container provided with a retainer; placing the noodle-like vegetable in the retainer of the oil frying container to form a mass of the noodle-like vegetable; and frying the noodle-like vegetable mass placed in the retainer with oil. The method further comprises compressing the noodle-like vegetable mass in the middle of the frying of the noodle-like vegetable mass with oil or immediately after the frying with oil.

Orally adhering lozenges comprising soluble dietary fiber are provided herein. The orally adhering lozenges provided herein may be in the form of tablet-type lozenges comprising compressed powders and/or granules in at least two layers. The orally adhering lozenges include at least 30% soluble dietary fiber. The orally adhering lozenges also include an adhesive component to adhere the lozenge inside the mouth. The orally adhering lozenges are also low in cariogenic sugar, non-resistant starch, and polyols.

Orally adhering lozenges comprising soluble dietary fiber are provided herein. The orally adhering lozenges provided herein may be in the form of tablet-type lozenges comprising compressed powders and/or granules in at least two layers. The orally adhering lozenges include at least 30% soluble dietary fiber. The orally adhering lozenges also include an adhesive component to adhere the lozenge inside the mouth. The orally adhering lozenges are also low in cariogenic sugar, non-resistant starch, and polyols.

Spirulina infused gummies containing micronutrients for consumption by a person to deliver beneficial and necessary nutrients to the person and a method of preparing spirulina infused gummies to eliminate the bad odor and taste normally associated with spirulina. The gummies have pectin, water, citric acid, sugar and/or glucose and spirulina. Preservatives and flavor additives can also be included. The method of making the gummies includes heating a mixture of citric acid and water, adding pectin and sugar to the mixture and then stirring, adding hot glucose to the mixture, stirring the mixture and allowing the mixture to cool, adding spirulina to the mixture followed by continuous stirring, adding additional citric acid to the mixture, stirring until jellification begins, pouring the mixture into molds and removing the mixture from the molds when cool. Preferably, a preservative and a flavor additive are added to the mixture prior to the additional citric acid.

Spirulina infused gummies containing micronutrients for consumption by a person to deliver beneficial and necessary nutrients to the person and a method of preparing spirulina infused gummies to eliminate the bad odor and taste normally associated with spirulina. The gummies have pectin, water, citric acid, sugar and/or glucose and spirulina. Preservatives and flavor additives can also be included. The method of making the gummies includes heating a mixture of citric acid and water, adding pectin and sugar to the mixture and then stirring, adding hot glucose to the mixture, stirring the mixture and allowing the mixture to cool, adding spirulina to the mixture followed by continuous stirring, adding additional citric acid to the mixture, stirring until jellification begins, pouring the mixture into molds and removing the mixture from the molds when cool. Preferably, a preservative and a flavor additive are added to the mixture prior to the additional citric acid.

To provide a food product molding device and a food product manufacturing method capable of molding foodstuffs into a food product having stacked plural layers with a simple structure. A mold unit in which a first mold plate and a second mold plate are stacked slidingly moves by a drive unit. Through holes respectively provided in the first mold plate and the second mold plate are linked to form molding hole portions. The molding hole portions move to a first filling position in which upper ends of the molding hole portions are connected to first filling openings, a second filling position in which upper ends of the molding hole portions are connected to second filling openings, and a discharge position in which upper ends of the molding hole portions are connected to pusher ports by the slide movement of the mold unit.

Disclosed herein is a method for allowing forming & sealing films to be embossed/debossed with various shapes such as geometric, organic, or fractal and/or combination and various dimensions and depths. The texture or pattern is transferred to the film from an insert. The pattern on the forming & sealing film is then transferred onto the surface of the various proteins including but not limited to chicken, turkey, beef, pork, and plant proteins during the form-fill-seal and cook process. The forming and/or sealing inserts can form various thermoforming films with functional and/or decorative embossing and/or debossing without the use of knitted, elastic, extruded, tightly weaved, plastic netting, and/or compression forming molds and/or release agents for netting removal. Since the forming inserts are constructed using additive manufacturing processes, almost any design can be embossed/debossed onto the forming & sealing film.