Abstract: A system for treating food, the system including: a direct barrier discharge system including a pair of electrodes separated by a gap of at least 0.5 cm, wherein the direct barrier discharge system is configured to provide a feed gas between the electrodes, wherein the feed gas includes nitrogen and water, wherein a content of nitrogen in the feed gas is at least 75 vol % based on a total volume of the feed gas, and a relative humidity of the feed gas is at least 50% RH, wherein a content of oxygen in the feed gas is less than 1.5 vol % based on a total volume of the feed gas, and wherein the direct barrier discharge system is configured to provide an electric potential between the electrodes to generate a working gas having an ozone content of less than 20 ppm, based on a total volume of the working gas.

Abstract: A plasma treatment device is provided and includes a first electrode, a dielectric body supportive of the first electrode and a second mesh electrode having an opposite polarity as the first electrode and comprising a seating portion. The second mesh electrode is disposed proximate to the dielectric body to define a gap receptive of particles for collection in the seating portion. The gap is sized such that, with the second mesh electrode activated, a plasma field is generated to treat the particles in the seating portion. The seating portion is configured to retain the particles during treatment in opposition to ionic winds resulting from the plasma field.

Abstract: A system for treating food, the system including: a direct barrier discharge system including a pair of electrodes separated by a gap of at least 0.5 cm, wherein the direct barrier discharge system is configured to provide a feed gas between the electrodes, wherein the feed gas includes nitrogen and water, wherein a content of nitrogen in the feed gas is at least 75 vol % based on a total volume of the feed gas, and a relative humidity of the feed gas is at least 50% RH, wherein a content of oxygen in the feed gas is less than 1.5 vol % based on a total volume of the feed gas, and wherein the direct barrier discharge system is configured to provide an electric potential between the electrodes to generate a working gas having an ozone content of less than 20 ppm, based on a total volume of the working gas.

Abstract: A real time soil constituent sensor and precision agricultural chemical delivery system may measure simple in situ soil constituents without the aid of externally applied solvents, or such solvents may be utilized intermittently to calibrate the measurements for greater accuracy. A real time complex in situ soil resistivity sensor and prescription agricultural chemical delivery system includes a plurality of ground-engaging tools in association with individual soil electrode arrays which measure complex solute and matrix resistivity levels. Conventional engaging tools may serve as electrodes for impressing a voltage source and serve as a current sink for the purposes of determining complex resistivity values and components thereof in in situ soils. Alternatively, local resistivity measurements in a single tool can also be employed for separation of resistivity cotributions of the soil solute and the matrix.

Abstract: A real time soil constituent sensor and precision agricultural chemical delivery system may measure simple in situ soil constituents without the aid of externally applied solvents, or such solvents may be utilized intermittently to calibrate the measurements for greater accuracy. A real time complex in situ soil resistivity sensor and prescription agricultural chemical delivery system includes a plurality of ground-engaging tools in association with individual soil electrode arrays which measure complex solute and matrix resistivity levels. Conventional ground-engaging tools may serve as electrodes for impressing a voltage source and serve as a current sink for the purposes of determining complex resistivity values and components thereof in in situ soils. Alternatively, local resistivity measurements in a single tool can also be employed for separation of resistivity contributions of the soil solute and the matrix.