Embodiments of the present disclosure provide an auger dip apparatus for the application of antimicrobial solution to raw food. Embodiments of the present disclosure may use an auger as a single moving part to move the food work pieces through the application area for antimicrobial solution. Embodiments of the present disclosure are simple with only one moving auger part to move the food pieces, and the bearing for the moving part, supporting the shaft of the auger, may be configured to be outside of the cabinet with the reservoir of the antimicrobial solution, so that the bearing is not in contact with the antimicrobial solution. This provides for less maintenance and downtime, particularly unscheduled downtime, than a system using more complicated exposed parts. The present disclosure also permits a more compact and lighter configuration for an assembled application unit.

A method and apparatus is disclosed relating to food processing and preparation in commercial kitchens. The inventive extreme vacuum cooling (EVC) technology and apparatus for food rapid cooling and food flavor infusion can work in ultra low pressure conditions with adaptive chamber pressure control to avoid liquid splash inside the food chamber. The disclosed EVC cooling and food flavor infusion apparatus has a one-unit design for handing small payloads, and a dual-module design to handle larger payloads. It can accelerate the food marinating and brining process with substantial time savings. Using the EVC apparatus, large amounts of meats, vegetables, and fruits can be prepared with various flavor infusion recipes. Plant-forward and high-volume food service kitchens can become more time and energy efficient, less labor intensive, and higher throughput food preparation operations.

A method and apparatus is disclosed relating to food processing and preparation in commercial kitchens. The inventive extreme vacuum cooling (EVC) technology and apparatus for food rapid cooling and food flavor infusion can work in ultra low pressure conditions with adaptive chamber pressure control to avoid liquid splash inside the food chamber. The disclosed EVC cooling and food flavor infusion apparatus has a one-unit design for handing small payloads, and a dual-module design to handle larger payloads. It can accelerate the food marinating and brining process with substantial time savings. Using the EVC apparatus, large amounts of meats, vegetables, and fruits can be prepared with various flavor infusion recipes. Plant-forward and high-volume food service kitchens can become more time and energy efficient, less labor intensive, and higher throughput food preparation operations.

A chiller bath includes a tank for holding a volume of chiller water; a dosing system for dosing a first solution and a second solution into the chiller water, arranged to create a plurality of zones within the volume of water, wherein each zone has a higher concentration of either the first or the second solution than surrounding portions of the volume of water; and a meat or poultry immersion arrangement for immersing and moving carcasses in the chiller water. A method for reducing bacterial load on meat or poultry includes generating a plurality of zones within a chiller bath containing water by dosing a source of alkalinity and antimicrobial into the water, wherein the plurality of zones comprises at least one alkaline zone with a pH above 8.5, and at least one antimicrobial zone with pH below 8.5; and submersing meat or poultry in the bath. The zones can also be generated using spray nozzles in a meat or poultry operation.

A chiller bath includes a tank for holding a volume of chiller water; a dosing system for dosing a first solution and a second solution into the chiller water, arranged to create a plurality of zones within the volume of water, wherein each zone has a higher concentration of either the first or the second solution than surrounding portions of the volume of water; and a meat or poultry immersion arrangement for immersing and moving carcasses in the chiller water. A method for reducing bacterial load on meat or poultry includes generating a plurality of zones within a chiller bath containing water by dosing a source of alkalinity and antimicrobial into the water, wherein the plurality of zones comprises at least one alkaline zone with a pH above 8.5, and at least one antimicrobial zone with pH below 8.5; and submersing meat or poultry in the bath. The zones can also be generated using spray nozzles in a meat or poultry operation.

A marinator apparatus for the preparation of pieces of a whole chicken includes a fluid-tight hollow drum with opposing top and bottom walls that are substantially planar and that include an opening with a lid configured to sealingly close the opening. The drum further includes an interior baffle fixed inside that separates the drum into a top compartment accessible only through the top opening and an opposite bottom compartment accessible only through the bottom opening. The drum is supported for rotation by a support axle projecting from one end wall and a drive axle projecting from the opposite end wall. The drive axle includes a driven gear configure to be driven by a powered drive gear.

A marinator apparatus for the preparation of pieces of a whole chicken includes a fluid-tight hollow drum with opposing top and bottom walls that are substantially planar and that include an opening with a lid configured to sealingly close the opening. The drum further includes an interior baffle fixed inside that separates the drum into a top compartment accessible only through the top opening and an opposite bottom compartment accessible only through the bottom opening. The drum is supported for rotation by a support axle projecting from one end wall and a drive axle projecting from the opposite end wall. The drive axle includes a driven gear configure to be driven by a powered drive gear.

A method of packaging live shellfish, the method including placing live shellfish in a sealable receptacle, inserting an oxygen-enriched, aqueous-based liquid medium in the receptacle in an amount that permits a gaseous-phase headspace within the receptacle, inserting a gas in the receptacle, the gas including oxygen, wherein the gas is inserted in an amount to fill the receptacle headspace with the gas, and sealing the receptacle to thereby retain the contents of the receptacle in a sealed environment.

A method of packaging live shellfish, the method including placing live shellfish in a sealable receptacle, inserting an oxygen-enriched, aqueous-based liquid medium in the receptacle in an amount that permits a gaseous-phase headspace within the receptacle, inserting a gas in the receptacle, the gas including oxygen, wherein the gas is inserted in an amount to fill the receptacle headspace with the gas, and sealing the receptacle to thereby retain the contents of the receptacle in a sealed environment.

An ultrasonic freezing equipment, which includes a casing, a circulating pump system, an ultrasonic generator, a vortex-tube freezing device and a temperature-measuring device. A vertex tube is configured for refrigeration. A circulating salt solution inside the casing is configured to quickly and uniformly take away a heat of a food to be frozen, so as to efficiently freeze the food. A freezing method using the ultrasonic freezing equipment is also provided.