A process for metering the disposition of a food product into cavities forming a pellet. The cavities are defined in a conveyor as individual cavities. Each cavity defines a specific volume. The process includes supplying a quantity of food product in a supply chamber which includes a plurality of nozzles aligned above the conveyor. The nozzles are aligned with a predetermined portion of the cavities. A predefined supply of food product is dispensed and metered through each nozzle. The food product is dispensed through the nozzles into the cavities without exceeding the specific volume of the cavity. The food product is frozen into an individual quick frozen pellet starting immediately upon disposition in one of the cavities. The step of metering the predefined amount of food product includes metering a predetermined weight of the food product.

A process for metering the disposition of a food product into cavities forming a pellet. The cavities are defined in a conveyor as individual cavities. Each cavity defines a specific volume. The process includes supplying a quantity of food product in a supply chamber which includes a plurality of nozzles aligned above the conveyor. The nozzles are aligned with a predetermined portion of the cavities. A predefined supply of food product is dispensed and metered through each nozzle. The food product is dispensed through the nozzles into the cavities without exceeding the specific volume of the cavity. The food product is frozen into an individual quick frozen pellet starting immediately upon disposition in one of the cavities. The step of metering the predefined amount of food product includes metering a predetermined weight of the food product.

An apparatus for manufacturing cryogenically frozen supplementary beads, including a freezing chamber configured to contain a cryogenic liquid, at least one feed tray overlying the freezing chamber arranged and adapted to receive a liquid composition from a delivery source, the at least one feed tray having a plurality of orifices for the discharge of uniformly sized droplets of the liquid composition from the at least one feed tray, whereby the droplets are delivered by gravity into the freezing chamber there-below to form frozen beads, at least one clean-in-place structure, and a conveyor belt assembly comprising a conveyor belt, wherein at least a portion of the conveyor belt is positioned proximate a bottom of the freezing chamber such that the conveyor belt is positioned to receive frozen beads onto the conveyor belt.

An automated cryogenic storage system includes a freezer and an automation system to provide automated transfer of samples to and from the freezer. The freezer includes a bearing and a drive shaft though the freezer, the drive shaft being coupled to a rack carrier inside the freezer and adapted to be coupled to a motor. The automation module includes a rack puller that is automatically positioned above an access port of the freezer. The rack puller engages with a sample rack within the freezer, and elevates the rack into an insulating sleeve external to the freezer. From the insulating sleeve, samples can be added to and removed from the sample rack before it is returned to the freezer.

An automated cryogenic storage system includes a freezer and an automation system to provide automated transfer of samples to and from the freezer. The freezer includes a bearing and a drive shaft though the freezer, the drive shaft being coupled to a rack carrier inside the freezer and adapted to be coupled to a motor. The automation module includes a rack puller that is automatically positioned above an access port of the freezer. The rack puller engages with a sample rack within the freezer, and elevates the rack into an insulating sleeve external to the freezer. From the insulating sleeve, samples can be added to and removed from the sample rack before it is returned to the freezer.

Systems and methods for preparing and dispensing a coffee product in a frozen bead form, some of which include a vending machine having a freezing chamber for freezing droplets of liquid coffee and dispensing the frozen beads of the coffee product responsive to a vending request.

An automated cryogenic storage system includes a freezer and an automation system to provide automated transfer of samples to and from the freezer. The freezer includes a bearing and a drive shaft though the freezer, the drive shaft being coupled to a rack carrier inside the freezer and adapted to be coupled to a motor. The automation module includes a rack puller that is automatically positioned above an access port of the freezer. The rack puller engages with a sample rack within the freezer, and elevates the rack into an insulating sleeve external to the freezer. From the insulating sleeve, samples can be added to and removed from the sample rack before it is returned to the freezer.

An automated cryogenic storage system includes a freezer and an automation system to provide automated transfer of samples to and from the freezer. The freezer includes a bearing and a drive shaft though the freezer, the drive shaft being coupled to a rack carrier inside the freezer and adapted to be coupled to a motor. The automation module includes a rack puller that is automatically positioned above an access port of the freezer. The rack puller engages with a sample rack within the freezer, and elevates the rack into an insulating sleeve external to the freezer. From the insulating sleeve, samples can be added to and removed from the sample rack before it is returned to the freezer.

An apparatus for cooling products includes a cooling chamber with a conveyor for conveying the products through the cooling chamber, at least one circulator for circulating a cooling gas within at least a part of the cooling chamber, and guiding elements for guiding a flow of the cooling gas. The guiding elements are arranged such as to form at least one backflow channel from the second side of the conveyor to the at least one circulator, and wherein the cooling gas can be directed into an impingement section via the at least one circulator.

Apparatus for cooling products including a cooling chamber with a conveyor for conveying the products through the chamber, at least one circulator for circulating a cooling gas within at least a part of the chamber, and a first aperture element with a plurality of first aperture openings. The conveyor and the at least one circulator are arranged within the cooling chamber such that the cooling gas can impinge a first side of the conveyor, wherein the first aperture element is arranged within the chamber such that the cooling gas penetrates through the first aperture openings before impinging the first side of the conveyor.