The purpose of the present invention is to provide a food processing system that allows processed food that is sterilized and has a good texture to be identically provided on a large production scale. The food processing system is provided with: a heating unit equipped with a heating mechanism for indirectly heating food; a cooling unit equipped with a cooling mechanism for cooling the food heated by the heating unit; and a transfer unit for transferring the food through the heating unit and the cooling unit. The integrated food processing system according to the present invention allows a large amount of sterilized food having a good texture, good taste and long shelf life to be provided.

A slender and funnel-shaped jet nozzle structure includes a plurality of slender tapered diversion channels, a plurality of slender jet nozzles and a conveyer belt. The wall thickness of the slender tapered diversion channel is 1-5 mm. The wall thickness of the slender jet nozzle is 1-5 mm. A thickness of the conveyer belt is 1-5 mm. The slender tapered diversion channel is a hollow slender truncated cone and includes an upper opening and a lower opening. The upper opening of the slender tapered diversion channel is substantively elliptic, and the lower opening of the slender tapered diversion channel is connected to an inlet of the slender jet nozzle. The slender jet nozzle is a hollow slender elliptic cylinder.

In a freezer having an internal space therein in which a blower and an impingement plate are disposed and through which a conveyor for a food product passes, an impingement apparatus, includes a hood disposed at the internal space for coacting with the blower and the impingement plate, the hood including a sidewall defining a sub-chamber in which the blower is received; and a pipe having an end opening into the sub-chamber for introducing a pulse of cryogen to the sub-chamber for increasing a pressure in the sub-chamber and contacting the impingement plate. A related method is also provided.

A method for coating food products with a coating substance including: a step a) of supercooling the food products, by providing external frigories, to a temperature lower than the initial temperature of same, before contacting the food products with the coating substance, and subsequently, a step b) of contacting the supercooled food products obtained in step a) with the coating substance. In step b): (i) the supercooled food products are contacted with the coating substance in a treatment chamber, (ii) the food products are stirred by a motorised mechanised system, including at least one stirring member, internal to the treatment chamber, (iii) the at least one stirring member is heated, and the intensity of the heating is adjusted, without excess heating, so as to avoid the accumulation of materials on the stirring member.

The purpose of the present invention is to provide a food processing system that allows processed food that is sterilized and has a good texture to be identically provided on a large production scale. The food processing system is provided with: a heating unit equipped with a heating mechanism for indirectly heating food; a cooling unit equipped with a cooling mechanism for cooling the food heated by the heating unit; and a transfer unit for transferring the food through the heating unit and the cooling unit. The integrated food processing system according to the present invention allows a large amount of sterilized food having a good texture, good taste and long shelf life to be provided.

A contact interfacing conductive receptacle is provided. The contact interfacing conductive receptacle includes a housing sized to receive an object including water. The housing includes one or more non-transfer material pieces and two or more transfer material pieces. Each transfer material piece is configured to provide conductivity and provides a field to a different portion of the object. The transfer material pieces are integrated with the non-transfer material pieces.

A rotary separation apparatus is deployed in a process for separating resinous trichomes rich in flavoring, aromatic and/or medicinal components produced in plant trichome glands from unwanted plant matter. A liquid freezing agent is introduced into a container of the plant matter to fragment the undesirable matter while the desired portion rich in trichome remain intact.

An apparatus for reducing the temperature of a liquid product in a processing line includes a polymer member having a passageway formed therein for receiving a liquid product in the passageway; an inlet and an outlet each in fluid communication with a corresponding opposed end of the passageway; a plurality of delivery channels formed in the polymer member, each one of the plurality of delivery channels having an opening in fluid communication with a different location of the passageway and constructed to provide a chilling medium into the passageway; and a support member for the polymer member, the support member constructed to mount the polymer member in the processing line. A related method is also provided.

A horizontal axis rotary separation apparatus is deployed in a process for separating resinous trichomes rich in flavoring, aromatic and/or medicinal components produced in plant trichome glands from unwanted plant matter. The process physically separates resin rich beads at the trichome gland head from extraneous plant matter by one or move separation sieves. The sieves are provided in or as a casing over a rigid frame member. The sieves are mesh fabric bags or screen that are easily opened and replenished in a batch operating mode, and are removable from the frame for cleaning and maintenance. Other aspects of the invention include processes that improve process efficiency and speed, and yield products of superior quality.

The efficiency of a device for cooling or heating objects on a belt that moves through a path of a helix, in which gaseous cooling or heating medium is circulated within the device, is improved by positioning fans that circulate the cooling or heating medium so that the fans are distanced from the top of the helix.