Disclosed are various embodiments for immersion treatment system fluidized unloading. In one embodiment, a product is immersed in a treatment liquid in a chamber of an immersion treatment system. A product mixture is discharged from the chamber to an entry point of a fluidized unloader. The product mixture is transported from the entry point to an exit point via the fluidized unloader. A residence time of the product in the treatment liquid while in the chamber and the fluidized unloader is controlled. The product is separated from the treatment liquid at the exit point of the fluidized unloader.

A dip tank and recycling system for applying antimicrobial solution to food items, including a dip tank having a bottom and sides, and holding a liquid antimicrobial solution. A conveyor to convey food items through the tank passes through the liquid antimicrobial solution held in the tank such that food items conveyed on the conveyor are dipped in the liquid antimicrobial solution. At least two discharge nozzles spray fresh antimicrobial solution into the tank. The discharge nozzles are located in the sides of the tank, and are positioned above the level of the conveyor but below an expected top level of the liquid antimicrobial solution contained within the tank such that food items conveyed on the conveyor are agitated by the force of the spray from the discharge nozzles. The spray from the discharge nozzles causes unstacking of items on the conveyor, producing an even application of the antimicrobial solution.

A dip tank and recycling system for applying antimicrobial solution to food items, including a dip tank having a bottom and sides, and holding a liquid antimicrobial solution. A conveyor to convey food items through the tank passes through the liquid antimicrobial solution held in the tank such that food items conveyed on the conveyor are dipped in the liquid antimicrobial solution. At least two discharge nozzles spray fresh antimicrobial solution into the tank. The discharge nozzles are located in the sides of the tank, and are positioned above the level of the conveyor but below an expected top level of the liquid antimicrobial solution contained within the tank such that food items conveyed on the conveyor are agitated by the force of the spray from the discharge nozzles. The spray from the discharge nozzles causes unstacking of items on the conveyor, producing an even application of the antimicrobial solution.

Systems and methods for providing food intervention, pumping up, and tenderization are discussed. While such systems can include any suitable component, in some cases, they include a needleless spray nozzle head that injects injectade into food without requiring the head to contact the food. In some cases, the head comprises an elongated needleless spray bar that defines multiple internal fluid channels that extend from a first end to a second end of the spray bar. In some cases, the head comprises a manifold system with a first manifold portion at the first end and a second manifold portion at the second end of the spray bar. In some cases, the first manifold portion directs the injectade towards the second end, and the second manifold portion directs the injectade towards the first end of the elongated needleless spray bar. Other implementations are described.

Systems and methods for providing food intervention, pumping up, and tenderization are discussed. While such systems can include any suitable component, in some cases, they include a needleless spray nozzle head that injects injectade into food without requiring the head to contact the food. In some cases, the head comprises an elongated needleless spray bar that defines multiple internal fluid channels that extend from a first end to a second end of the spray bar. In some cases, the head comprises a manifold system with a first manifold portion at the first end and a second manifold portion at the second end of the spray bar. In some cases, the first manifold portion directs the injectade towards the second end, and the second manifold portion directs the injectade towards the first end of the elongated needleless spray bar. Other implementations are described.

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.

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.

Systems and methods for providing food intervention, pumping up, and tenderization are discussed. While such systems and methods can include any suitable component, in some cases, they include an injectade reservoir, a filter, a first pump configured to force injectade from the injectade reservoir and through the filter, a nozzle configured to inject injectade into a food product without having the nozzle contact the food, and a valve that is configured to selectively open and close to regulate when and how much of the injectade that passes through the filter is forced out of the nozzle. In some cases, the described systems further include a chiller configured to cool injectade in the reservoir, a sensor configured to determine a distance between the nozzle and food item, an actuator configured to move the nozzle, and/or a computer processor that controls an amount of injectade sprayed from the nozzle. Other implementations are described.

Systems and methods for providing food intervention, pumping up, and tenderization are discussed. While such systems and methods can include any suitable component, in some cases, they include an injectade reservoir, a filter, a first pump configured to force injectade from the injectade reservoir and through the filter, a nozzle configured to inject injectade into a food product without having the nozzle contact the food, and a valve that is configured to selectively open and close to regulate when and how much of the injectade that passes through the filter is forced out of the nozzle. In some cases, the described systems further include a chiller configured to cool injectade in the reservoir, a sensor configured to determine a distance between the nozzle and food item, an actuator configured to move the nozzle, and/or a computer processor that controls an amount of injectade sprayed from the nozzle. Other implementations are described.

Process and plant for washing of grapes especially for wine making comprising: a first stage of automated washing able to remove substances and/or foreign bodies from the grapes at least through the effect of chemical agents; a second stage of automated washing to remove chemical agents from the grape;

the phases of washing being such as to preserve the integrity and the organoleptic qualities of the grape.