A produce wash system, method, and short-term wash treatment are provided. For example, the produce wash system includes a produce line including a short-term wash device followed by a wash device, a short-term wash treatment that is applied by the short-term wash device to a product, wherein the short-term wash treatment is applied using a spray device that creates micrometer sized droplets, and wherein the short-term wash treatment remains on the product for a pretreatment time that lasts until the product reaches the wash device, and a wash treatment that is applied by the wash device to the product, wherein the wash treatment rinses the short-term wash treatment from the product defining the end of the pretreatment time. The pretreatment time is set at or below a damage threshold time beyond which the short-term wash treatment damages the product beyond a damage threshold.

A produce wash system, method, and short-term wash treatment are provided. For example, the produce wash system includes a produce line including a short-term wash device followed by a wash device, a short-term wash treatment that is applied by the short-term wash device to a product, wherein the short-term wash treatment is applied using a spray device that creates micrometer sized droplets, and wherein the short-term wash treatment remains on the product for a pretreatment time that lasts until the product reaches the wash device, and a wash treatment that is applied by the wash device to the product, wherein the wash treatment rinses the short-term wash treatment from the product defining the end of the pretreatment time. The pretreatment time is set at or below a damage threshold time beyond which the short-term wash treatment damages the product beyond a damage threshold.

A strainer basket system may include a reservoir in which a strainer basket is positioned and a chemical dispensing docking station. The chemical dispensing docking station may have a cavity that receives a container of chemical to be dispensed and a retention mechanism that is configured to mechanically engage and retain the container of chemical, when inserted into the cavity. The docking station may also include a piercing member positioned to pierce the container of chemical as the container of chemical is inserted into the cavity, thereby releasing chemical into the reservoir and/or strainer basket.

Provided herein are techniques, devices, and systems for determining the safety of an ingestible product with respect to a contaminant as the ingestible product is being processed. A computing system may receive data associated with processing of an ingestible product. Based on the data, and using a model, the computing system may determine a value associated with the ingestible product with respect to a target contaminant. Based on the value, the ingestible product can be classified as a class label indicative of a safety of the ingestible product with respect to the contaminant, such as a classification of “safe” or “unsafe.” In some examples, a reduction of a contaminant in an ingestible product is dynamically monitored, in real-time, as the ingestible product is being processed.

Provided herein are techniques, devices, and systems for determining the safety of an ingestible product with respect to a contaminant as the ingestible product is being processed. A computing system may receive data associated with processing of an ingestible product. Based on the data, and using a model, the computing system may determine a value associated with the ingestible product with respect to a target contaminant. Based on the value, the ingestible product can be classified as a class label indicative of a safety of the ingestible product with respect to the contaminant, such as a classification of “safe” or “unsafe.” In some examples, a reduction of a contaminant in an ingestible product is dynamically monitored, in real-time, as the ingestible product is being processed.

Systems and methods for antimicrobial application and related data collection are described. In certain embodiments, the systems and methods of the present disclosure include calculating a dwell time or density of workpieces in a vessel; and modulating the one or more conditions of the system based on the dwell time or density of workpieces in the vessel.

Provided are foodstuff treatment systems that are convertible between a processing mode in which foodstuffs are processed (e.g., disinfected) and a clean-in-place mode in which the system operates to clean material (e.g., biological buildup) that has accumulated within the system.

Provided are foodstuff treatment systems that are convertible between a processing mode in which foodstuffs are processed (e.g., disinfected) and a clean-in-place mode in which the system operates to clean material (e.g., biological buildup) that has accumulated within the system.

An application system for forming protective coatings over perishable items, including: a bed including a plurality of rollers, wherein each of the rollers is configured to rotate at a predetermined rotational rate, thereby causing the perishable items on the bed to rotate; one or more sprayers over a first portion of the bed; one or more blowers over a second portion of the bed; a mixing system configured to prepare a mixture including a coating agent in a solvent; and a liquid delivery system connected inline between the mixing system and the one or more sprayers.

An application system for forming protective coatings over perishable items, including: a bed including a plurality of rollers, wherein each of the rollers is configured to rotate at a predetermined rotational rate, thereby causing the perishable items on the bed to rotate; one or more sprayers over a first portion of the bed; one or more blowers over a second portion of the bed; a mixing system configured to prepare a mixture including a coating agent in a solvent; and a liquid delivery system connected inline between the mixing system and the one or more sprayers.