A synergistic composition of oxalic acid, citric acid, ascorbic acid, lactic acid, and hydrogen peroxide that has a combination of antimicrobial and antibrowning properties.

Compositions for forming protective coatings on, e.g., agricultural products, can form a lamellar structure on the surface of the agricultural product that forms a barrier to, e.g., water and gas.

Compositions for forming protective coatings on, e.g., agricultural products, can form a lamellar structure on the surface of the agricultural product that forms a barrier to, e.g., water and gas.

The present invention relates generally to methods for forming peroxyformic acid, comprising contacting formic acid with hydrogen peroxide. The methods for forming peroxyformic acid can include adding formic acid with a relatively lower concentration of hydrogen peroxide, or adding formic acid to a peroxycarboxylic acid composition or forming composition to react with hydrogen peroxide in the compositions. The present invention also relates to peroxyformic acid formed by the above methods. The present invention further relates to the uses of peroxyformic acid for treating a variety of targets, e.g., target water, including target water used in connection with oil- and gas-field operations. The present invention further relates to methods for reducing or removing H.sub.2S or iron sulfide in the treated water source, improving clarity of the treated water source, or reducing the total dissolved oxygen or corrosion in the treated water source, using peroxyformic acid, including peroxyformic acid generated in situ.

The present invention relates generally to methods for forming peroxyformic acid, comprising contacting formic acid with hydrogen peroxide. The methods for forming peroxyformic acid can include adding formic acid with a relatively lower concentration of hydrogen peroxide, or adding formic acid to a peroxycarboxylic acid composition or forming composition to react with hydrogen peroxide in the compositions. The present invention also relates to peroxyformic acid formed by the above methods. The present invention further relates to the uses of peroxyformic acid for treating a variety of targets, e.g., target water, including target water used in connection with oil- and gas-field operations. The present invention further relates to methods for reducing or removing H.sub.2S or iron sulfide in the treated water source, improving clarity of the treated water source, or reducing the total dissolved oxygen or corrosion in the treated water source, using peroxyformic acid, including peroxyformic acid generated in situ.

A composition with an enhanced antifungal activity, which comprises peptides as a protamine hydrolysate and which is suitable for industrial application at a low cost, can be provided, by using a combination of a protamine hydrolysate and a terpene alcohol as an active ingredient of a composition having an antifungal activity.

Methods of preventing or decreasing PEDv and/or Salmonella bacteria in animal feed, feed ingredients, and pet food are provided. The methods utilize generally safe chemical mitigants, such as medium chain fatty acids, essential oils, and sodium bisulfate. The chemical mitigants are introduced to the feed or feed ingredients at inclusion rates selected so as to prevent or decrease PEDv and/or Salmonella bacteria in the animal feed, feed ingredients, or pet food. The methods are particularly suitable for use in post-processing treatment of animal feed, feed ingredients, or pet food that will be transported and stored for multiple days or weeks.

The present disclosure features dried vegetable noodles having an increased shelf life and methods of making dehydrated vegetable noodles. The noodles are dry, shelf stable cut vegetable noodles (cut from whole produce, not extruded) and are lower in carbohydrate calories and higher in nutritional value than traditional grain-based noodles. The process results in a food safe, extended shelf stable singularized noodle that is nutritious, convenient and versatile.

The present technology relates to botanical antimicrobial compositions that comprise various ingredients, including undecylenic acid, organic acid or solvents; and that can be used as surface cleaners, disinfectants, sanitizers, or preservatives for food or consumer products. The present technology also relates to methods of disinfecting or sanitizing surfaces, or preserving food or personal care compositions, comprising contacting such surfaces, or food or personal care compositions, with an antimicrobial composition herein.

The present technology relates to botanical antimicrobial compositions that comprise various ingredients, including undecylenic acid, organic acid or solvents; and that can be used as surface cleaners, disinfectants, sanitizers, or preservatives for food or consumer products. The present technology also relates to methods of disinfecting or sanitizing surfaces, or preserving food or personal care compositions, comprising contacting such surfaces, or food or personal care compositions, with an antimicrobial composition herein.