FOOD SAFETY TECHNOLOGY, LLC Patent applications |
Patent application number | Title | Published |
20140263097 | METHOD AND SYSTEMS FOR CONTROLLING MICROORGANISMS AND TURBIDITY IN RETORT COOLING WATER USING AN AQUEOUS OZONE SOLUTION - Methods and systems for treating cooling water of a retort are described. The methods and systems generate an aqueous ozone solution and combine the aqueous ozone solution with the cooling water. The methods and systems provide a safe, economical, easy to handle, and environmentally friendly solution for maintaining a retort cooling water system. The systems and methods herein remove contaminates from the cooling water, supply a continuous sanitizer created on-site, reduce the need for additional chemicals, and reduce the labor costs attributed to maintaining the retort cooling water system. | 09-18-2014 |
20130195725 | OZONATED LIQUID PRODUCTION AND DISTRIBUTION SYSTEMS - Ozonated liquid production and distribution system are described. The systems use multiple ozone gas generators to create ozone gas from ambient air. The ozone gas is injected into water or fluid by multiple injectors to form the ozonated liquid. | 08-01-2013 |
20130142704 | OZONATED LIQUID DISPENSING UNIT - A reaction vessel and an ozonated liquid dispensing unit are described herein. The unit produces and dispenses an ozonated liquid that may be used to clean and sanitize a variety of articles or used in conjunction with cleaning processes and other apparatus. The reaction vessel is incorporated into the unit to reduce bubbles of ozone gas and to break up bubbles of ozone gas in the ozonated liquid to provide a more effective and longer lasting cleaning and sanitizing solution. | 06-06-2013 |
20120142575 | AQUEOUS OZONE SOLUTION FOR OZONE CLEANING SYSTEM - A method of making an aqueous ozone solution for an industrial cleaning system is described. The method includes providing a reaction vessel for entraining ozone gas in an aqueous solution. The reaction vessel includes a conical-shaped surface having a two or more edges or ridges. The conical-shaped surface defines an interior, and two or more edges or ridges are in contact with the interior. The reaction vessel is in fluidic communication with a supply of water. The reaction vessel is in fluidic communication with a supply of a first aqueous ozone solution. The first aqueous ozone solution is directed to the conical-shaped surface. Water is directed to the conical-shaped surface, and the water and the first aqueous ozone solution are mixed to form a second aqueous ozone solution. Compositions for aqueous ozone solutions are also described. | 06-07-2012 |
20110165018 | AIR DECONTAMINATION UNIT - An air decontamination unit is described with a housing defining an interior, an intake and exhaust in direct communication with the interior, a blower—in operational communication with a control panel—for drawing in and moving air through the housing, which further includes a filter assembly, a UV lamp, an ozone lamp, and an ozone sensor for detecting the concentration of ozone therein—positioned in the interior of the housing, all in direct communication with the control panel. | 07-07-2011 |
20090120473 | OZONE CLEANING SYSTEM - An industrial cleaning system that produces and distributes an aqueous ozone solution is described. The system provides a centralized system for producing the aqueous ozone solution and distributing the aqueous ozone solution to different application points at different flow rates and concentrations. The system includes an ozone generator for generating ozone gas, which is injected into a supply of water to form the aqueous ozone solution. A reaction vessel receives the aqueous ozone solution from the injector. The reaction vessel reduces the bubbles of ozone gas in the aqueous ozone solution to increase the oxidation reduction potential of the aqueous ozone solution. | 05-14-2009 |
20090008806 | REACTION VESSEL FOR AN OZONE CLEANING SYSTEM - A reaction vessel for entraining ozone gas in an aqueous ozone solution for an industrial cleaning system is described. The reaction vessel includes a conical-shaped surface having two or more edges. The conical-shaped surface defines a generally hollow interior, and the two or more edges are in contact with the generally hollow interior. An inlet port is in fluidic communication with a supply of an aqueous ozone solution to supply the aqueous ozone solution to the conical-shaped surface. Nozzles are in fluidic communication with a supply of water, and the nozzles direct the water under pressure at the conical-shaped surface, and the water mixes with the aqueous ozone solution from the inlet port. An outlet is in fluidic communication with the industrial cleaning system. The reaction vessel may receive the aqueous ozone solution from an injector. The reaction vessel reduces the bubbles of ozone gas in the aqueous ozone solution and entrains the bubbles of ozone gas in the aqueous ozone solution to increase the oxidation reduction potential of the aqueous ozone solution. | 01-08-2009 |
20080227680 | AQUEOUS OZONE SOLUTION FOR OZONE CLEANING SYSTEM - A method of making an aqueous ozone solution for an industrial cleaning system is described. The method includes providing a reaction vessel for entraining ozone gas in an aqueous solution. The reaction vessel includes a conical-shaped surface having a two or more edges or ridges. The conical-shaped surface defines an interior, and two or more edges or ridges are in contact with the interior. The reaction vessel is in fluidic communication with a supply of water. The reaction vessel is in fluidic communication with a supply of a first aqueous ozone solution. The first aqueous ozone solution is directed to the conical-shaped surface. Water is directed to the conical-shaped surface, and the water and the first aqueous ozone solution are mixed to form a second aqueous ozone solution. | 09-18-2008 |