A process for reducing the bacterial count on a poultry carcass during poultry processing after the picking stage and prior to the chilling stage by applying an intervention solution having at least one equilibrium peroxycarboxylic acid or a pH modified peroxycarboxylic acid comprising peroxyacetic acid to the poultry carcass at an elevated temperature above 100 F. and at an elevated concentration of at least 200 ppm for a desired period of time of less than about 30 seconds to reduce the bacterial count by at least 60 percent. The process providing acceptable antimicrobial control in poultry processing prior to the chilling stage.

A process for reducing the bacterial count on a poultry carcass during poultry processing after the picking stage and prior to the chilling stage by applying an intervention solution having at least one equilibrium peroxycarboxylic acid or a pH modified peroxycarboxylic acid comprising peroxyacetic acid to the poultry carcass at an elevated temperature above 100 F. and at an elevated concentration of at least 200 ppm for a desired period of time of less than about 30 seconds to reduce the bacterial count by at least 60 percent. The process providing acceptable antimicrobial control in poultry processing prior to the chilling stage.

A system includes a vacuum chamber, a vacuum source, and a mixture flow path adapted to be connected to receive the output of a direct steam injector. The vacuum source is operatively connected to a vacuum port of the vacuum chamber, while a product outlet port from the vacuum chamber is adapted to be connected to an arrangement for removing treated product from the vacuum chamber. The mixture flow path includes a flow path segment outside of the vacuum chamber volume and a flow path segment within the vacuum chamber volume. At least some of a surface defining the flow path segment within the vacuum chamber is in substantial thermal communication with one or more cooling structures.

A method for sterilizing a ground meat product through the application supercritical CO.sub.2 during the processing of the meat by introducing supercritical CO.sub.2 into an extruder as the meat passes through the extruder while controlling the pressure and speed at which the meat passes through the extruder to maintain the meat in contact with the supercritical CO.sub.2 for a time sufficient to achieve a log reduction in colony forming units of microbial contaminants.

Food processing methods and associated apparatuses are disclosed herein. In one embodiment, a food processing method includes heating a meat product in an oven to a pasteurizing temperature of the meat product followed by drying the meat product at the oven temperature that is below the maximum oven temperature of the processing cycle. In another embodiment, the method includes heating a meat product in a continuous belt grill, followed by drying the meat product in a temperature/relative humidity controlled oven. By breaking the food processing method into at least two phases, the method can result in a shorter processing time with better control of the process end points.

The sanitizer includes an elongated semi-cylindrical tank that houses heated process water and a close-fitting auger to move food products from the inlet end of the tank to the outlet end. Heated process water at a temperature sufficient to sanitize the food product is introduced into the tank at the outlet end of the tank to flow through the tank counter to the direction of flow of the food product. A recirculation and filter system filters out the particulates in the process water. A hood assembly is positioned over the tank to contain the air borne moisture generated during the sanitizing process and route the steam away from the tank. A control system controls the operation of the sanitizer, including, for example, the speed of the auger, the volume of process water in the tank, and the temperature of the process water in the tank.

A process for reducing the bacterial count on a poultry carcass during poultry processing after the picking stage and prior to the chilling stage by applying an intervention solution having at least one equilibrium peroxycarboxylic acid or a pH modified peroxycarboxylic acid comprising peroxyacetic acid to the poultry carcass at an elevated temperature above 100 F. and at an elevated concentration of at least 200 ppm for a desired period of time of less than about 30 seconds to reduce the bacterial count by at least 60 percent. The process providing acceptable antimicrobial control in poultry processing prior to the chilling stage.

The present invention provides a dried-fishes extract having excellent flavor and a production method therefor. In particular, the present invention provides a dried-fishes extract containing at least 150 ppm inosinic acid and at least 150 ppm anserine.

There is disclosed a super critical hydrolysis extraction apparatus including a pressure container comprising a body and a lid coupled to the body to close a space formed therein to accommodate an object; a contact unit configured to open and close C the body, while moving the lid forward and backward; and a pipeline unit comprising a supply line where a liquid for filling in the pressure container and a discharge line for discharging the liquid of the pressure container.

A method for preparing a shelf-stable, high-moisture food product is disclosed, including drying the pre-pasteurized food item to a water activity between 0.86 and 0.94; and vacuum packing the dried food item in an oxygen impermeable and water-impermeable membrane.