Abstract: A system comprises a plurality of electrochemical cells each comprising an anode chamber and a cathode chamber, each cell configured to electrolyze electrolyte to generate an anolyte and a catholyte, a plurality of sets of one or more flow control devices, each of the sets being configured to control a flow rate of the electrolyte into a corresponding cell, a plurality of current measuring devices, each configured to measure a current across a corresponding one of the plurality of cells, and a control system in data communication with the flow control devices and the current measuring devices. The control system is configured to compare the measured current across each of the cells to a current set point, and control the flow control devices to adjust the flow rate of the electrolyte in response to a difference between the measured current across a cell and the current set point.
Abstract: A gel composition that includes: (i) sodium dihydrogen phosphate; (ii) LAPONITE® (sodium magnesium fluorosilicate); (iii) hypochlorous acid; and (iv) water. Also included are methods of manufacturing the gel composition, as well as methods of using the gel composition, e.g., contacting a topical surface of an animal (e.g., human) with the gel composition.
Abstract: A system comprises a plurality of electrochemical cells each comprising an anode chamber and a cathode chamber, each cell configured to electrolyze electrolyte to generate an anolyte and a catholyte, a plurality of sets of one or more flow control devices, each of the sets being configured to control a flow rate of the electrolyte into a corresponding cell, a plurality of current measuring devices, each configured to measure a current across a corresponding one of the plurality of cells, and a control system in data communication with the flow control devices and the current measuring devices. The control system is configured to compare the measured current across each of the cells to a current set point, and control the flow control devices to adjust the flow rate of the electrolyte in response to a difference between the measured current across a cell and the current set point.