An apparatus and method for making meat jerky in the form of a thin-walled tube uses a food extruder extruding a meat mixture through a tubular opening die and coating the meat mixture with a solution of calcium chloride to firm the meat mixture in the tubular form without collapsing. The present invention provides a reproducible process for creating meat jerky tubes with consistent length, width, and size portion.

According to one embodiment, a method for removing antimicrobial material from a composition includes providing a container that contains a plurality of carbon elements such as granules, rocks and sheets. The carbon elements are submerged with a liquid and a composition that includes an antimicrobial material is deposited in the container. The carbon elements are configured to remove the antimicrobial material from the composition. The level of the liquid in the container is monitored and controlled to maintain a submerged condition of the carbon elements.

According to one embodiment, a method for removing antimicrobial material from a composition includes providing a container that contains a plurality of carbon elements such as granules, rocks and sheets. The carbon elements are submerged with a liquid and a composition that includes an antimicrobial material is deposited in the container. The carbon elements are configured to remove the antimicrobial material from the composition. The level of the liquid in the container is monitored and controlled to maintain a submerged condition of the carbon elements.

A method for treating a perishable product including determining a desired product treatment outcome selected from sanitation, protection, preservation, or enhancement of the perishable product; directly applying a substance to the surface of the perishable product after harvesting using a carrier; wet or dry washing the perishable product; and packaging the perishable product. A system for treating a perishable product with a substance treatment including one or more devices for directed substance application to a surface of the perishable products prior to final packaging of the perishable product using a carrier; and wherein the one or more devices is an electrostatically charging device or a nebulizer Embodiments of the invention enhance the efficacy of sanitizers and other functional substances for increasing the quality, safety, and overall shelf life of perishable products through improved coating and distribution of the sanitizers and functional substances on the surface of perishable product.

A method for treating a perishable product including determining a desired product treatment outcome selected from sanitation, protection, preservation, or enhancement of the perishable product; directly applying a substance to the surface of the perishable product after harvesting using a carrier; wet or dry washing the perishable product; and packaging the perishable product. A system for treating a perishable product with a substance treatment including one or more devices for directed substance application to a surface of the perishable products prior to final packaging of the perishable product using a carrier; and wherein the one or more devices is an electrostatically charging device or a nebulizer Embodiments of the invention enhance the efficacy of sanitizers and other functional substances for increasing the quality, safety, and overall shelf life of perishable products through improved coating and distribution of the sanitizers and functional substances on the surface of perishable product.

Disclosed are methods for killing or reducing the incidence of pathogenic bacteria, comprising contacting the bacteria with a PURAC CL 21/80 solution (1-2.5% by weight) comprising lactic acid in an amount ranging from about 0.43% to 1.23% by weight and citric acid in an amount ranging from about 0.29% to about 0.88% by weight. In some aspects, the pathogenic bacteria can be present on a meat product.

Disclosed are methods for killing or reducing the incidence of pathogenic bacteria, comprising contacting the bacteria with a PURAC CL 21/80 solution (1-2.5% by weight) comprising lactic acid in an amount ranging from about 0.43% to 1.23% by weight and citric acid in an amount ranging from about 0.29% to about 0.88% by weight. In some aspects, the pathogenic bacteria can be present on a meat product.

An assembly is provided for turning a food product into slices of food product. The assembly includes a microbial treatment assembly configured to move the food product along a path, and a microbial intervention apparatus configured to substantially reduce an amount of microbes on an exterior surface of the food product while the food product is traveling along the path, a slicing machine downstream of the microbial treatment assembly, the slicing machine being configured to slice the food product into slices, an enclosure in which the slicing machine is positioned, the enclosure being sealed from outside atmosphere, and a microbial treatment apparatus in communication with the enclosure and configured to deter the growth of microbes on the food product.

An assembly is provided for turning a food product into slices of food product. The assembly includes a microbial treatment assembly configured to move the food product along a path, and a microbial intervention apparatus configured to substantially reduce an amount of microbes on an exterior surface of the food product while the food product is traveling along the path, a slicing machine downstream of the microbial treatment assembly, the slicing machine being configured to slice the food product into slices, an enclosure in which the slicing machine is positioned, the enclosure being sealed from outside atmosphere, and a microbial treatment apparatus in communication with the enclosure and configured to deter the growth of microbes on the food product.

A poultry carcass spraying cabinet having an inclined or declined section located between the entrance and exit, the inclined or declined section having a slope or angle such that the wing-area of adjacently shackled poultry carcasses being conveyed is spaced to increase spray performance of the carcass spraying cabinet, allow foreign material proximate the wing-area of the poultry carcasses to be dislodged, and thereby minimize cross-contamination during poultry processing. The spray nozzles of adjacent arbor members of the inclined or declined section being located in different horizontal planes to provide optimal spraying performance proximate the wing-area of the poultry carcass.