A processor of a sensor device receives a plurality of images capturing a scene that depicts at least a portion of a conveyer entering a treatment area of a food processing system. The processor processes one or more images, among the plurality of images, to detect one or more characteristics in the scene. Processing the one or more images includes detecting presence or absence of a product on the at least the portion of the conveyor depicted in the scene, and classifying the scene as having one or more characteristics among a predetermined set of characteristics. The sensor device provides characteristics information indicating the one or more characteristics detected in the scene to a controller. The characteristics information is to be used by the controller to control operation of one or both of the conveyor and the treatment area of the food processing system.

Disclosed are methodology and apparatus for freezing the exterior crust of products, such as food products, in a manner that does not cause the exterior of the product to adhere to the surface on which it is placed during or after the freezing.

Disclosed are methodology and apparatus for freezing the exterior crust of products, such as food products, in a manner that does not cause the exterior of the product to adhere to the surface on which it is placed during or after the freezing.

A plant for continuously cooling foodstuffs includes a container suitable to receive such foodstuffs continuously moved by a movement member and refrigerant apparatus for cooling such foodstuffs during the movement thereof, the movement member being a pump; the plant includes a spiral duct preferably arranged around the container wherein the pump continuously directs and moves the foodstuffs to be cooled and in which there is directed a cryogenic fluid, along at least two different turns of the spiral duct there being arranged apparatus for injecting of the cryogenic fluid.

A plant for continuously cooling foodstuffs includes a container suitable to receive such foodstuffs continuously moved by a movement member and refrigerant apparatus for cooling such foodstuffs during the movement thereof, the movement member being a pump; the plant includes a spiral duct preferably arranged around the container wherein the pump continuously directs and moves the foodstuffs to be cooled and in which there is directed a cryogenic fluid, along at least two different turns of the spiral duct there being arranged apparatus for injecting of the cryogenic fluid.

Systems and methods of producing a frozen food product include dosing ingredients with a liquefied gas while mixing the ingredients using self-cleaning interlocking beaters. The beaters are optionally also disposed to clean a container in which the ingredients are frozen. The rate and amount of cooling is controlled by measuring the quantity of liquid nitrogen, measuring viscosity of the frozen food product, measuring temperature, and/or the like.

Systems and methods of producing a frozen food product include dosing ingredients with a liquefied gas while mixing the ingredients using self-cleaning interlocking beaters. The beaters are optionally also disposed to clean a container in which the ingredients are frozen. The rate and amount of cooling is controlled by measuring the quantity of liquid nitrogen, measuring viscosity of the frozen food product, measuring temperature, and/or the like.

An enriched trichome pellet product including either a hop derived lupulin component or a cannabis derived trichome component, and the associated cryogenic and mechanical method for the efficient production of the pellet product. The pellet is produced at low temperatures, which aids in pellet production eliminating degradation of the hop lupulin having a high alpha acid and essential oils content that is especially suited for use in the brewing of beer and hop flavored beverages, and aids in eliminating degradation of the cannabis trichome having aromatic oils, and terpenoids and terpenes as well as therapeutic and psychoactive cannabinoids including THC, CBG, and CBD that is especially suited for use in cannabis component or “cannabinoid” enriched products.

The invention relates to a process of freezing an organic product using a freezing device. The process includes introducing an organic product inside a tank of the freezing device containing a freezing solvent set to a predefined temperature. The freezing solvent is an alcohol/aqueous based solution including at least one inhibitor. Nitrogen is passed in a form of bubbles into the freezing solvent through a gas permeable structure placed inside the tank. The freezing solvent is circulated from the tank, through a liquid transmission means and back into the tank using a pump to maintain the freezing solvent at the predefined temperature. The freezing solvent is agitated using at least one agitator placed within the tank. The steps of passing nitrogen, circulating and agitating the freezing solvent are performed until a core temperature of the organic product reaches the predefined temperature.

The invention relates to a process of freezing an organic product using a freezing device. The process includes introducing an organic product inside a tank of the freezing device containing a freezing solvent set to a predefined temperature. The freezing solvent is an alcohol/aqueous based solution including at least one inhibitor. Nitrogen is passed in a form of bubbles into the freezing solvent through a gas permeable structure placed inside the tank. The freezing solvent is circulated from the tank, through a liquid transmission means and back into the tank using a pump to maintain the freezing solvent at the predefined temperature. The freezing solvent is agitated using at least one agitator placed within the tank. The steps of passing nitrogen, circulating and agitating the freezing solvent are performed until a core temperature of the organic product reaches the predefined temperature.