The present disclosure provides for, and includes, environments for the production, transport and storage of agricultural products including, but not limited to, fruits, vegetables, grains, tubers, decorative plants, flowers and mushrooms. The present disclosure also relates to methods of preparing environments for the preservation and production of agricultural products Also provided are organic agricultural products having reduced levels of microorganisms and residual organic compounds.

The present disclosure provides for, and includes, environments for the production, transport and storage of agricultural products including, but not limited to, fruits, vegetables, grains, tubers, decorative plants, flowers and mushrooms. The present disclosure also relates to methods of preparing environments for the preservation and production of agricultural products Also provided are organic agricultural products having reduced levels of microorganisms and residual organic compounds.

An electric sanitizing device and method for cleaning an item, the electric sanitizing device comprising: a lid having an ultraviolet lamp disposed above a transparent glass window, a spray nozzle, and a vent housing an activated carbon filter; a body attached below the lid, the body comprising a cleaning chamber having a contact tank, a dispersion stone and a water inlet, a retention plate, a filter plate sitting atop the retention plate, a basket sitting atop the filter plate, and a control panel; and an electronics compartment disposed below the body, the electronics compartment comprising an ozone generator having an air pump, a rotating motor adapted to rotate the basket, a water pump adapted to pump water to the spray nozzle, and a controller adapted to operate the ozone generator, the UV lamp, the rotating motor and the water pump according to a user's commands entered via the control panel.

An electric sanitizing device and method for cleaning an item, the electric sanitizing device comprising: a lid having an ultraviolet lamp disposed above a transparent glass window, a spray nozzle, and a vent housing an activated carbon filter; a body attached below the lid, the body comprising a cleaning chamber having a contact tank, a dispersion stone and a water inlet, a retention plate, a filter plate sitting atop the retention plate, a basket sitting atop the filter plate, and a control panel; and an electronics compartment disposed below the body, the electronics compartment comprising an ozone generator having an air pump, a rotating motor adapted to rotate the basket, a water pump adapted to pump water to the spray nozzle, and a controller adapted to operate the ozone generator, the UV lamp, the rotating motor and the water pump according to a user's commands entered via the control panel.

Systems and methods for providing high humidity ozone gas. Systems and methods for applying high humidity ozone gas to foodstuffs and/or other products as an antimicrobial treatment. Compressed air and dry ozone gas are combined, thereby providing a dry mix. A portion of the dry mix can be humidified in a humidifying chamber, thereby providing a wet mix. The wet mix can be combined with a portion of the dry mix, thereby providing humid ozonated air. The humid ozonated air can be applied to foodstuffs such as produce, as an antimicrobial treatment, as the foodstuffs are conveyed.

Systems and methods for providing high humidity ozone gas. Systems and methods for applying high humidity ozone gas to foodstuffs and/or other products as an antimicrobial treatment. Compressed air and dry ozone gas are combined, thereby providing a dry mix. A portion of the dry mix can be humidified in a humidifying chamber, thereby providing a wet mix. The wet mix can be combined with a portion of the dry mix, thereby providing humid ozonated air. The humid ozonated air can be applied to foodstuffs such as produce, as an antimicrobial treatment, as the foodstuffs are conveyed.

The present application relates to large-scale methods of uniformly coating packaging surfaces with a benzoxaborole compound.

The present application relates to large-scale methods of uniformly coating packaging surfaces with a benzoxaborole compound.

The present disclosure relates to methods and devices for controlling arthropods, including insects and arachnids in an environment. The methods generally comprise: generating a near-ideal gas Purified Hydrogen Peroxide Gas (PHPG) that is substantially non-hydrated (e.g., in the form of water in solution or water in solution or water molecules bonded by covalence, van der Waals forces, or London forces) and substantially free of, e.g., ozone, plasma species, and/or organic species; and directing the gas comprising primarily PHPG into the environment such that the PHPG acts to control arachnids in the environment. In certain aspects, the arachnids may be totally or partially killed.

The present disclosure relates to methods and devices for controlling arthropods, including insects and arachnids in an environment. The methods generally comprise: generating a near-ideal gas Purified Hydrogen Peroxide Gas (PHPG) that is substantially non-hydrated (e.g., in the form of water in solution or water in solution or water molecules bonded by covalence, van der Waals forces, or London forces) and substantially free of, e.g., ozone, plasma species, and/or organic species; and directing the gas comprising primarily PHPG into the environment such that the PHPG acts to control arachnids in the environment. In certain aspects, the arachnids may be totally or partially killed.