The present application describes an antimicrobial composition comprising lauric arginate ethyl ester (LAE) and hydrogen peroxide and the use of this composition for disinfecting and sanitizing different types of surfaces such as food products, human skin or mucosa and hard surfaces as well as a method of stabilizing the composition by including a sequestering agent (citrate salt and/or phosphate salt).

Compositions, methods, systems and equipment capable of significantly reducing glyphosate, microbial, mycotoxin and other contaminant levels in various food commodities, such as, but not limited to, grains (e.g., corn, wheat, oats barley, rye, sorghum, millet, rice, etc.), nuts, seeds, and other agricultural products, are described. A contaminant treatment fluid suitable for use in reducing contaminant levels in foods may include an electrolyzed carrier fluid having a reductive potential with an oxidizer, a carbohydrate, and a sulfonic acid functional group-containing compound. Contacting food commodities with the contaminant treatment fluid reduces contaminant levels in the food commodity.

Compositions, methods, systems and equipment capable of significantly reducing glyphosate, microbial, mycotoxin and other contaminant levels in various food commodities, such as, but not limited to, grains (e.g., corn, wheat, oats barley, rye, sorghum, millet, rice, etc.), nuts, seeds, and other agricultural products, are described. A contaminant treatment fluid suitable for use in reducing contaminant levels in foods may include an electrolyzed carrier fluid having a reductive potential with an oxidizer, a carbohydrate, and a sulfonic acid functional group-containing compound. Contacting food commodities with the contaminant treatment fluid reduces contaminant levels in the food commodity.

A composition of matter having the following chemical structure: $.Math.H_x{O}_{\frac{\left(x-1\right)}{2}}.Math.Z_y$ wherein x is and odd integer ≥3; y is an integer between 1 and 20; and Z is one of a monoatomic ion from Groups 14 through 17 having a charge value between −1 and −3 or a polyatomic ion having a charge between −1 and −3.

A composition of matter having the following chemical structure: $.Math.H_x{O}_{\frac{\left(x-1\right)}{2}}.Math.Z_y$ wherein x is and odd integer ≥3; y is an integer between 1 and 20; and Z is one of a monoatomic ion from Groups 14 through 17 having a charge value between −1 and −3 or a polyatomic ion having a charge between −1 and −3.

Provided herein are antimicrobial coating compositions and food packaging materials coated therewith. The coating compositions include at least one antimicrobial active agent and a hydrophilic polymer, such that the active agent is immobilized within the composition.

A method for obtaining pure drinking water from dewatered biological products is described. The process is carried out in a hermetic dewatering chamber isolated from the ambient atmosphere and in parallel with a process during which dried products are placed on drying trays. All the process parameters, such as temperature, humidity, and appropriate pressure inside the chamber, are controlled. The vapor generated during the product dewatering process, released from the products, is continuously removed from the dewatering chamber through the upper opening, exits through the outflow channel, and enters through the condenser. The process of obtaining clean drinking water is carried out outside the chamber and is conducted in several stages: vapor passes through disinfectant grids, vapor flows to a condenser cooled with ice water, and the vapor condenses on densely arranged lamellas. The condensate is then pumped to a discharge tub.

Methods and systems for generating a highly energized fluid formula for use in tempering grains and other foodstuffs is described. The temper fluid described herein is capable of reducing pathogens and/or pesticide residues on grains and other foodstuffs. The tempering fluid may include chlorine dioxide with an oxidative carrier solution, and may further include carboxylic acids. The methods described herein may include an alkaline fluid pre-rinse prior to treatment of the grain with the energized fluid formula.

The disclosure relates to preparation, processing, and packaging of fresh foods, particularly proteins. In various implementations, the methods include steps for ozone exposure, reduction of surface moisture, introduction of a modified atmosphere, and high pressure pasteurization. Prior to packaging the protein may be exposed to ozone and undergo dehydration to reduce the amount of moisture on the surface of the protein. The protein may then be packaged in a modified atmosphere, lacking oxygen, and then undergo high-pressure pasteurization.

The disclosure relates to preparation, processing, and packaging of fresh foods, particularly proteins. In various implementations, the methods include steps for ozone exposure, reduction of surface moisture, introduction of a modified atmosphere, and high pressure pasteurization. Prior to packaging the protein may be exposed to ozone and undergo dehydration to reduce the amount of moisture on the surface of the protein. The protein may then be packaged in a modified atmosphere, lacking oxygen, and then undergo high-pressure pasteurization.