Abstract: The present disclosure relates generally to a deodorizing composition including hydrogen peroxide, present in an amount of no more than 3 wt. %, based on the total weight of the composition; silver ions, present in an amount in the range of 1-1000 ppm, based on the total weight of the composition; and water, present in an amount of at least 90 wt. %, based on the total weight of the composition.

Abstract: An antimicrobial supply system employs a process water supply and incorporates a metallic ion supply connected to the process water supply to provide a high ion concentrate to an output. A dilution reservoir is connected to the metallic ion supply output and has an input from the process water supply. A pump is connected to an output of the reservoir. A manifold connected to the pump provides a dilute concentrate to at least one washing system and a recirculation loop to the dilution reservoir for enhanced mixing of the dilute concentrate. An electronics control module is connected to a first flow controller between the process water supply and the metallic ion supply and a second flow controller between the metallic ion supply and the reservoir for dilution control establishing a desired metallic ion concentration.

Abstract: According to an aspect of the present disclosure, a method of treating a textile with an antimicrobial agent over a plurality of laundry cycles each including a wash cycle and a treatment cycle. The method includes (a) receiving a textile in a wash system for a first laundry cycle, (b) initiating a wash cycle comprising a detergent, (c) initiating a post-detergent treatment cycle comprising dosing the textile with a solution having a predetermined concentration of an antimicrobial agent that comprises a metallic ion, and (c) repeating steps (a)-(c) for each of a plurality of additional laundry cycles. The predetermined concentration is insufficient to achieve a predetermined antimicrobial efficacy for the textile due to the first laundry cycle alone but sufficient to achieve the predetermined antimicrobial efficacy for the textile due to a combination of the first laundry cycle and one or more of the plurality of additional laundry cycles.

Abstract: According to an aspect of the present disclosure, a method of treating a textile with an antimicrobial agent over a plurality of laundry cycles each including a wash cycle and a treatment cycle is described. The method includes (a) receiving a textile in a wash system for a first laundry cycle, (b) initiating a wash cycle comprising a detergent, (c) initiating a post-detergent treatment cycle comprising dosing the textile with a solution having a predetermined concentration of an antimicrobial agent that comprises a metallic ion, and (c) repeating steps (a)-(c) for each of a plurality of additional laundry cycles. The predetermined concentration is insufficient to achieve a predetermined antimicrobial efficacy for the textile due to the first laundry cycle alone but sufficient to achieve the predetermined antimicrobial efficacy for the textile due to a combination of the first laundry cycle and one or more of the plurality of additional laundry cycles.

Abstract: According to an aspect of the present disclosure, a method of treating a textile with an antimicrobial agent includes receiving a textile in a washer system. The textile includes an identification tag, which uniquely identifies the textile among a plurality of textiles. The method also includes detecting, in the washer system, the identification tag. The method further includes determining, based on the detected identification tag, one or more parameters for treating the textile with an antimicrobial agent. The antimicrobial agent includes a metallic ion. The method also includes washing the textile with a detergent, and, after washing the textile with the detergent, treating the textile with the antimicrobial agent based on the one or more parameters.

Abstract: According to an aspect of the present disclosure, a method of treating a textile with an antimicrobial agent includes receiving a textile in a washer system. The textile includes an identification tag, which uniquely identifies the textile among a plurality of textiles. The method also includes detecting, in the washer system, the identification tag. The method further includes determining, based on the detected identification tag, one or more parameters for treating the textile with an antimicrobial agent. The antimicrobial agent includes a metallic ion. The method also includes washing the textile with a detergent, and, after washing the textile with the detergent, treating the textile with the antimicrobial agent based on the one or more parameters.

Abstract: Cartridges and systems for delivering solutions to textiles. In various aspects, the cartridge may include (i) a concentrate chamber that stores a concentrate solution and comprising an outlet, (ii) a dilution chamber comprising an inlet for receiving the concentrate solution from the concentrate chamber, and outlet for dispensing a diluted solution, and (iii) a mechanical portion comprising one or more pumps for delivering the concentrate solution to the dilution chamber and for dispensing the diluted solution. Delivery systems using the cartridge are described.

Abstract: According to an aspect of the present disclosure, a method of treating a textile with an antimicrobial agent includes receiving a textile in a washer system. The textile includes an identification tag, which uniquely identifies the textile among a plurality of textiles. The method also includes detecting, in the washer system, the identification tag. The method further includes determining, based on the detected identification tag, one or more parameters for treating the textile with an antimicrobial agent. The antimicrobial agent includes a metallic ion. The method also includes washing the textile with a detergent, and, after washing the textile with the detergent, treating the textile with the antimicrobial agent based on the one or more parameters.

Abstract: An antimicrobial supply system employs a process water supply and incorporates a metallic ion supply connected to the process water supply to provide a high ion concentrate to an output. A dilution reservoir is connected to the metallic ion supply output and has an input from the process water supply. A pump is connected to an output of the reservoir. A manifold connected to the pump provides a dilute concentrate to at least one washing system and a recirculation loop to the dilution reservoir for enhanced mixing of the dilute concentrate. An electronics control module is connected to a first flow controller between the process water supply and the metallic ion supply and a second flow controller between the metallic ion supply and the reservoir for dilution control establishing a desired metallic ion concentration.

Abstract: According to an aspect of the present disclosure, a method of treating a textile with an antimicrobial agent includes receiving a textile in a washer system. The textile includes an identification tag, which uniquely identifies the textile among a plurality of textiles. The method also includes detecting, in the washer system, the identification tag. The method further includes determining, based on the detected identification tag, one or more parameters for treating the textile with an antimicrobial agent. The antimicrobial agent includes a metallic ion. The method also includes washing the textile with a detergent, and, after washing the textile with the detergent, treating the textile with the antimicrobial agent based on the one or more parameters.

Abstract: An antimicrobial supply system employs a process water supply and incorporates a metallic ion supply connected to the process water supply to provide a high ion concentrate to an output. A dilution reservoir is connected to the metallic ion supply output and has an input from the process water supply. A pump is connected to an output of the reservoir. A manifold connected to the pump provides a dilute concentrate to at least one washing system and a recirculation loop to the dilution reservoir for enhanced mixing of the dilute concentrate. An electronics control module is connected to a first flow controller between the process water supply and the metallic ion supply and a second flow controller between the metallic ion supply and the reservoir for dilution control establishing a desired metallic ion concentration.

Abstract: According to an aspect of the present disclosure, a method of treating a textile with an antimicrobial agent includes receiving a textile in a washer system. The textile includes an identification tag, which uniquely identifies the textile among a plurality of textiles. The method also includes detecting, in the washer system, the identification tag. The method further includes determining, based on the detected identification tag, one or more parameters for treating the textile with an antimicrobial agent. The antimicrobial agent includes a metallic ion. The method also includes washing the textile with a detergent, and, after washing the textile with the detergent, treating the textile with the antimicrobial agent based on the one or more parameters.

Abstract: According to an aspect of the present disclosure, a method of treating a textile with an antimicrobial agent over a plurality of laundry cycles each including a wash cycle and a treatment cycle. The method includes (a) receiving a textile in a wash system for a first laundry cycle, (b) initiating a wash cycle comprising a detergent, (c) initiating a post-detergent treatment cycle comprising dosing the textile with a solution having a predetermined concentration of an antimicrobial agent that comprises a metallic ion, and (c) repeating steps (a)-(c) for each of a plurality of additional laundry cycles. The predetermined concentration is insufficient to achieve a predetermined antimicrobial efficacy for the textile due to the first laundry cycle alone but sufficient to achieve the predetermined antimicrobial efficacy for the textile due to a combination of the first laundry cycle and one or more of the plurality of additional laundry cycles.

Abstract: According to an aspect of the present disclosure, a method of treating a textile with an antimicrobial agent over a plurality of laundry cycles each including a wash cycle and a treatment cycle. The method includes (a) receiving a textile in a wash system for a first laundry cycle, (b) initiating a wash cycle comprising a detergent, (c) initiating a post-detergent treatment cycle comprising dosing the textile with a solution having a predetermined concentration of an antimicrobial agent that comprises a metallic ion, and (c) repeating steps (a)-(c) for each of a plurality of additional laundry cycles. The predetermined concentration is insufficient to achieve a predetermined antimicrobial efficacy for the textile due to the first laundry cycle alone but sufficient to achieve the predetermined antimicrobial efficacy for the textile due to a combination of the first laundry cycle and one or more of the plurality of additional laundry cycles.

Abstract: According to an aspect of the present disclosure, a method of treating a textile with an antimicrobial agent includes receiving a textile in a washer system. The textile includes an identification tag, which uniquely identifies the textile among a plurality of textiles. The method also includes detecting, in the washer system, the identification tag. The method further includes determining, based on the detected identification tag, one or more parameters for treating the textile with an antimicrobial agent. The antimicrobial agent includes a metallic ion. The method also includes washing the textile with a detergent, and, after washing the textile with the detergent, treating the textile with the antimicrobial agent based on the one or more parameters.

Abstract: According to an aspect of the present disclosure, a method of treating a textile with an antimicrobial agent over a plurality of laundry cycles each including a wash cycle and a treatment cycle. The method includes (a) receiving a textile in a wash system for a first laundry cycle, (b) initiating a wash cycle comprising a detergent, (c) initiating a post-detergent treatment cycle comprising dosing the textile with a solution having a predetermined concentration of an antimicrobial agent that comprises a metallic ion, and (c) repeating steps (a)-(c) for each of a plurality of additional laundry cycles. The predetermined concentration is insufficient to achieve a predetermined antimicrobial efficacy for the textile due to the first laundry cycle alone but sufficient to achieve the predetermined antimicrobial efficacy for the textile due to a combination of the first laundry cycle and one or more of the plurality of additional laundry cycles.

Abstract: According to an aspect of the present disclosure, a method of treating a textile with an antimicrobial agent over a plurality of laundry cycles each including a wash cycle and a treatment cycle. The method includes (a) receiving a textile in a wash system for a first laundry cycle, (b) initiating a wash cycle comprising a detergent, (c) initiating a post-detergent treatment cycle comprising dosing the textile with a solution having a predetermined concentration of an antimicrobial agent that comprises a metallic ion, and (c) repeating steps (a)-(c) for each of a plurality of additional laundry cycles. The predetermined concentration is insufficient to achieve a predetermined antimicrobial efficacy for the textile due to the first laundry cycle alone but sufficient to achieve the predetermined antimicrobial efficacy for the textile due to a combination of the first laundry cycle and one or more of the plurality of additional laundry cycles.

Abstract: An antimicrobial supply system employs a process water supply and incorporates a metallic ion supply connected to the process water supply to provide a high ion concentrate to an output. A dilution reservoir is connected to the metallic ion supply output and has an input from the process water supply. A pump is connected to an output of the reservoir. A manifold connected to the pump provides a dilute concentrate to at least one washing system and a recirculation loop to the dilution reservoir for enhanced mixing of the dilute concentrate. An electronics control module is connected to a first flow controller between the process water supply and the metallic ion supply and a second flow controller between the metallic ion supply and the reservoir for dilution control establishing a desired metallic ion concentration.

Abstract: An antimicrobial supply system employs a process water supply and incorporates a metallic ion supply connected to the process water supply to provide a high ion concentrate to an output. A dilution reservoir is connected to the metallic ion supply output and has an input from the process water supply. A pump is connected to an output of the reservoir. A manifold connected to the pump provides a dilute concentrate to at least one washing system and a recirculation loop to the dilution reservoir for enhanced mixing of the dilute concentrate. An electronics control module is connected to a first flow controller between the process water supply and the metallic ion supply and a second flow controller between the metallic ion supply and the reservoir for dilution control establishing a desired metallic ion concentration.

Abstract: An antimicrobial supply system employs a process water supply and incorporates a metallic ion supply connected to the process water supply to provide a high ion concentrate to an output. A dilution reservoir is connected to the metallic ion supply output and has an input from the process water supply. A pump is connected to an output of the reservoir. A manifold connected to the pump provides a dilute concentrate to at least one washing system and a recirculation loop to the dilution reservoir for enhanced mixing of the dilute concentrate. An electronics control module is connected to a first flow controller between the process water supply and the metallic ion supply and a second flow controller between the metallic ion supply and the reservoir for dilution control establishing a desired metallic ion concentration.