There is disclosed an apparatus for storing organic materials, the apparatus including: a body having an opening for receiving the organic materials to be stored; an outlet formed in the body through which the organic materials are unloaded from the body; a cooling fluid circuit for circulating cooling fluid through the organic material collected by the hopper.

An exemplary embodiment of the present disclosure provides a system for rotating a product during processing comprising a shackle system comprising a trolley, a rotator, and a rotating shackle and a track wherein the trolley is coupled to the track and configured to undergo translational motion along the track causing the shackle system to move along the track and wherein and the rotator is configured to undergo rotational kinematics causing rotation of the rotating shackle.

A cryogenic poultry chilling system including a rotatable carousel having a plurality of stations each configured and arranged to receive a poultry carcass suspended from leg hangers, the poultry carcass having an upward facing cavity opening and a downward facing neck opening, a tundish having an outlet port corresponding to each of the stations, and an injector extending downwardly from each of the tundish outlet ports configured and arranged to deliver cryogen into the cavity opening of a carcass in the corresponding station, and a cryogen delivery apparatus configured to deliver substantially liquid cryogen into the tundish.

A poultry chiller includes a tank and an auger rotatably held in the tank. The auger includes a first auger section and a second auger section. The first auger section includes a first auger shaft and a first auger flight. The first auger flight includes a first helical portion on the first auger shaft and a first flight extension that extends away from the first helical portion. The second auger section includes a second auger shaft coupled to the first auger shaft and a second auger flight. The second auger flight includes a second helical portion on the second auger shaft and a second flight extension that extends away from the second helical portion. The chiller includes a hanger bearing assembly between the first and second auger sections and extending to an upper portion of the tank.

A poultry chiller comprises a tank having a conveyor within the interior for urging poultry for movement along the tank, wherein the tank has an opening extending along a length of the tank, and a cleaning system for automatically cleaning the interior of the tank, the cleaning system comprising a plurality of distribution nozzles extending along the tank to direct cleaning fluid to the interior surface of the tank. Retrofitting kits are provided to automate cleaning in place of chiller tanks.

Meat processing methods providing reduced contamination from microbial sources, improved tenderness of the resulting meat product, and enhanced processing efficiency by decreasing cost, water usage, wastewater output, time, and energy necessary for processing meat carcasses are disclosed. The methods utilize hot water spray of the carcass in addition to subzero chilling. The methods reduce bacterial population during meat production, including both Gram-negative and Gram-positive bacteria. The hot water also cleans the carcass before exposure to the chilled water such that the chilled water can be used repeatedly.

The present disclosure provides an exemplary process for a system that may remove particulate from industrial water fluids using a Particulate Removal System (PRS). In some aspects, this system may treat water pulled from different Industrial Fluid Systems (IFS) while doing continuous monitoring and quality tests of the water. In some embodiments, the system may use sensors and other technology to allow for the system to periodically self-clean itself allowing for maximum efficiency and accuracy while also cleaning the water from the IFS. In some implementations, the water from the IFS may be filtered through a Particulate Trap Mechanism (PTM) to ensure that particulate including dissolved material has been removed from the water and separated from possible contamination throughout the system. In some aspects the system may be used for continuous and direct measurement of water quality and automatic chemical level adjustment by systems to maintain a desired range or setpoints.

A food cooling method includes: a dehumidifying step of performing mainly a dehumidifying process on food by cooling the food with cool air of a first blow-out temperature at which no frost is generated on fins of the heat exchanger; and a cooling step of performing mainly a cooling process on the food by cooling the food having undergone the dehumidifying step with cool air of a second blow-out temperature which is lower than the first blow-out temperature and at which frost may be generated on the fins.

A method for processing an intact animal carcass comprises submerging a bled animal carcass in scalding water for at least 20 seconds to produce a scalded animal carcass, de-hairing the scalded animal carcass to produce a de-haired animal carcass, suspending the de-haired animal carcass, burning an epidermal layer of the de-haired animal carcass while suspended so that a majority of the epidermal layer is charred so as to produce a burnt animal carcass, pressure washing the burnt animal carcass to produce a pressure-washed animal carcass, eviscerating the pressure-washed animal carcass to produce an eviscerated animal carcass, internally washing the eviscerated animal carcass to produce an internally washed animal carcass, and chilling the internally washed animal carcass to a temperature of between 0 degrees Celsius and about 4 degrees Celsius to produce a chilled animal carcass.

A method of sorting beef carcasses comprises determining the hot carcass weight and the Torso Section Thickness of a plurality of beef carcasses at a Standardized Location on the carcass torso; determining the ratio of hot carcass weight to Torso Section Thickness of individual carcasses of the plurality of beef carcasses and, prior to processing of the carcasses into smaller portions, sorting the carcasses into a groups based on the ratio of hot carcass weight to Torso Section Thickness. In another aspect, the sorting is carried out based on the lean point of the Torso Section of individual carcasses at a Standardized Location on the carcass torso of the plurality of beef carcasses.