Abstract: Disclosed is a concentrated cooling water additive that is substantially non-corrosive within a pH range of 2-12 and contains polymeric dispersant(s) and aromatic azole(s) that exhibits improved stability, possibly as a result of the interaction of the hydrophobic groups in the dispersant polymer and the aromatic azole(s). This improved stability allows for both reduced corrosivity of the formula and reduced manufacturing costs. Benefits of the disclosed formulations include improved safety for handling and shipment, more concentrated formulations available in liquid form, reduced shipping costs and storage space, reduced heat of neutralization during product manufacture, reduced costs of manufacture due to removal of need for caustic or acid addition and reduced environmental compliance costs associated with washing and waste handling step.

Abstract: An ultraviolet area sterilizer or disinfector is incorporated into a building structure where concern exists regarding the presence of pathogenic bacteria on environmental surfaces. Ultraviolet C (UV-C) generators generate UV-C that is directed to architectural partitions of an enclosed area. The architectural partitions reflect UV-C to kill pathogens in the enclosed area. The device transmits a calculated dose of UV-C from a fixture mounted to an architectural partition in the enclosed area. Once an effective cumulative dose of UV-C has been reflected to radiation sensors, as measured by the sensors, the device shuts down.

Abstract: A cooking device includes a cooking chamber; a first deodorization region along which air from the cooking chamber flows and in which a plasma discharge is generated for removing odor-producing materials generated in the cooking chamber from the air; and a bypass region along which air from the cooking chamber flows to bypass the first deodorization region.

Abstract: An apparatus (10) for purifying polluted air consisting of particle phase pollutants and gaseous phase pollutants, the apparatus (10) comprising: a dust level sensor (23) to measure the amount of particle phase pollutants in the polluted air; a dust removal component (14) to remove the particle phase pollutants from the polluted air; a catalyst filtering core (17) to decompose the gaseous phase pollutants by chemical reaction; a valve (22) for selectively controlling a path of air flow within the apparatus (10) and is movable between an open position and closed position, the valve (22) being positioned downstream from the dust removal component (14); wherein if the amount of particle phase pollutants measured by the dust level sensor (23) is above a predetermined value, the valve (22) is moved to the open position to enable the air to bypass the catalyst filtering core (17); and if the amount of particle phase pollutants measured by the dust level sensor (23) is less than a predetermined value, the valve (22)

Abstract: A method and apparatus for decontaminating a region with a gaseous or vaporous decontaminant (e.g., vaporized hydrogen peroxide) without dehumidification (e.g., without the use of a dryer). The saturation concentration of the decontaminant inside the region is monitored, and the concentration of the decontaminant inside the region is regulated to prevent condensation of the decontaminant. The bioburden reduction is continuously monitored during a decontamination phase to ascertain successful completion of a decontamination process in accordance with a target bioburden reduction.

Abstract: The present invention relates to a method for determining an effective dose of monochromatic or polychromatic light from one or more light sources to inactivate microorganisms present in a biological fluid, preferably a non-transparent fluid. Moreover, there is provided a method for the inactivation of microorganism in a biological fluid in a flow-through-reactor. Moreover, the invention advantageously provides a flow-through-reactor with one or more thermostated light sources. The invention further provides a method of controlling the light sum dose of monochromatic or polychromatic light emitted from one or more light sources to effectively inactivate microorganisms present in a biological fluid in a batch reactor.

Abstract: A method for operating a cleaning device or a cleaning system is proposed. In this case, the cleaning device is set up for carrying out a process for cleaning an article with a germicidal action. The method includes the following steps: information on a target germ with which the article could be contaminated is received; at least one process parameter of the cleaning process is selected according to the target germ in such a way that the target germ is killed with a high degree of probability during the cleaning process; and the cleaning process is carried out with the process parameter.

Abstract: A system and method for identifying and making quantitative determinations of different deposits on a portion thereof, determining that the deposit is a contaminant and decontaminating at least the portion of the system is disclosed. The system comprises a controller, a sensing portion and a decontamination portion. The controller contains information about at least one noncontaminant. The sensing portion communicates with at least the controller and the portion of the system and is adapted to detect the deposit. The decontaminating portion communicates with at least the controller and is adapted to decontaminate the portion of the system.

Abstract: A system and method for the treatment of process streams. A catalyst mediates a wet oxidation process at elevated temperatures and pressures for treating at least one undesirable constituent in an aqueous mixture. A catalyst may be selected for its solubility at a detected pH level of the aqueous mixture. Alternatively, a pH level of the aqueous mixture may be adjusted to solubilize a selected catalyst and/or maintain the selected catalyst in a soluble form. A controller in communication with a pH sensor may be configured to generate a control signal to adjust the pH level of the aqueous mixture in response to the pH sensor registering a pH level outside a predetermined pH solubility range for a selected catalyst.

Abstract: The present invention relates to a method for determining an effective dose of monochromatic or polychromatic light from one or more light sources to inactivate microorganisms present in a biological fluid, preferably a non-transparent fluid. Moreover, there is provided a method for the inactivation of microorganism in a biological fluid in a flow-through-reactor. Moreover, the invention advantageously provides a flow-through-reactor with one or more thermostated light sources. The invention further provides a method of controlling the light sum dose of monochromatic or polychromatic light emitted from one or more light sources to effectively inactivate microorganisms present in a biological fluid in a batch reactor.

Abstract: A dialysis system includes a plurality of modular components. The modular components can be coupled to one another in various configurations, wherein each configuration is optimized for use in a particular environment, such as in a home environment or a travel environment or a dialysis center.

Abstract: A control system of a surgery autoclave is described, which is capable of establishing a sterilization cycle which includes at least a first evacuation step of a sterilization chamber and of heating of a load and a final drying step. The autoclave includes a device capable of detecting a parameter proportional to the energy used up in a step of the cycle preceding the drying step and the control system establishes at least a reduction of the drying step upon determining that, the parameter of used up energy lies below a preset threshold.

Abstract: A drape including a sensing device according to the present invention is disposed over a top surface of a thermal treatment system having a basin recessed therein. A portion of the drape is pushed down into the basin to form a drape container for collecting a sterile medium. The thermal treatment system may be of the type that either heats or congeals the sterile medium. The sensing device includes electrodes that are typically disposed through the drape and sealed. The electrodes provide signals indicating the presence of liquid and/or leaks or other conditions within the drape container to the system to facilitate control of system operation. In addition, the sensing device includes a fuse to limit the drape to a single use. The system disables the fuse to indicate prior use and detects tampering to bypass the fuse, thereby preventing use of the drape for subsequent medical procedures.

Abstract: A system for automatically testing a fluid specimen, e.g., urine, to indicate the presence of specified chemical components in the specimen. The system preferably utilizes an assaying device comprised of a collection cup and a cap which carries at least one test strip. The device includes an integrated aliquot delivery mechanism actuatable to wet the test strip with an aliquot delivered from the fluid specimen. The assaying device is configured to operate in conjunction with an electronic reader device capable of actuating the aliquot delivery mechanism and reading the reaction of the test strip. A preferred reader device defines a keyed receptacle for accommodating a complementary shaped cup housing in a particular orientation. The reader device is comprised of a camera for capturing the image of a test strip, an actuator for actuating an aliquot delivery mechanism, and a microprocessor/controller for (1) controlling the camera and actuator and (2) processing the image.

Abstract: An apparatus for washing and disinfecting an endoscope is provided. First and second chemicals and dilution water, which dilutes the chemicals to be used for disinfecting the endoscope, are charged into a tank. The tank includes a first portion, a second portion having an area of base smaller than that of the first portion, a first sensor detecting that the dilution water is charged into the first portion up to a first level, a second sensor detecting that the first chemical is charged into the second portion up to a second level, and a third sensor detecting that the second chemical is charged into the second portion up to a third level. A unit measures a first volume of the first chemical based on a result of the second sensor and measures a second volume of the second chemical based on results of the third sensor and the second sensor.

Abstract: An air sanitization system including a housing having an inlet and an outlet, an ozone generator disposed in the housing and positioned between the inlet and outlet, at least one fiber optic cable positioned in visible proximity to the ozone generator, a visible light detector, and a controller. The housing is configured to receive a flow of an oxygen-containing gas through the inlet, and the ozone generator generates ozone from the flow of oxygen-containing gas. The at least one fiber optic cable is configured to receive and transmit visible light from the ozone generator. The visible light detector detects an amount of visible light transmitted by the at least one fiber optic cable. The controller is in communication with the visible light detector for determining whether the amount of visible light transmitted by the at least one fiber optic cable corresponds to a failure of the ozone generator.

Abstract: Methods and systems for programmed dispensation of consumable compositions are provided. A method for sterilizing a beverage container may comprise: (a) detecting a sterilization status of a beverage container; and (b) controlling functionality of a controllable device according to the sterilization status. A system for sterilizing a beverage container may comprise: (a) means for detecting a sterilization status of a beverage container; and (b) means for controlling functionality of a controllable device according to the sterilization status. A method for sterilizing a beverage container may comprise: (a) detecting an identity of a consumable composition; and (b) controlling a sterilization of at least a portion of a beverage container according to the identity of the consumable composition.

Abstract: An air sanitization system including a reactive oxygen species generator, a variable speed fan, a pathogen sensor and a controller. The reactive oxygen species generator generates reactive oxygen species from an oxygen-containing gas and discharges the reactive oxygen species to a conditioned space. The variable speed fan directs the oxygen-containing gas to the reactive oxygen species generator at a controlled speed. The pathogen sensor senses a level of airborne pathogens in the conditioned space and generates a signal indicative of the level of pathogens sensed. The controller receives the signal from the pathogen sensor and varies the speed of the variable speed fan in response to the signal to decrease a speed of the variable speed fan in response to an increase in the level of airborne pathogens sensed by the pathogen sensor.

Abstract: Methods and systems for programmed dispensation of consumable compositions are provided. A method for sterilizing a beverage container may comprise: (a) detecting a sterilization status of a beverage container; and (b) controlling functionality of a controllable device according to the sterilization status. A system for sterilizing a beverage container may comprise: (a) detecting a sterilization status of a beverage container; and (b) controlling functionality of a controllable device according to the sterilization status. A method for sterilizing a beverage container may comprise: (a) detecting an identity of a consumable composition; and (b) controlling a sterilization of at least a portion of a beverage container according to the identity of the consumable composition.

Abstract: The invention provides an air treatment device comprising: an airborne agent detector comprising a plurality of airborne agent sensors, wherein the airborne agent detector comprises means to detect a threshold level or concentration of an airborne agent; a means to mount a source of air treatment agent to the device; and a means to expel a portion of air treatment agent from a mounted source of agent, upon detection of an airborne agent by the detector.

Abstract: A dissolution testing apparatus includes a base structure, a vessel support structure, a cleaning manifold and a stirring mechanism. The vessel support structure is configured for mounting testing vessels and is rotatably mounted to the base structure. The vessel support structure is rotatable from an upright position at which respective open ends of the vessels face upwardly to an inverted position at which the open ends face downwardly. The cleaning manifold is mounted to base structure below the vessel support structure and is configured for directing a fluid into the vessels while the vessel support structure is at the inverted position. The stirring mechanism includes shafts and is movably mounted to the base structure. The stirring mechanism is movable from a lower position at which the shafts extend into the vessels to an upper position at which the shafts are outside the vessels. At the upper position the stirring mechanism provides clearance for the vessel support structure to rotate.

Abstract: A system for recovery and reutilization of sterilant gas mixture from a sterilizer chamber includes a storage tank in gaseous communication with a sterilizer chamber via a gas recovery assembly, wherein after sterilization the gas recovery assembly evacuates the sterilant gas mixture to the storage recovery tank. The system also includes an inert purge gas supply adapted to supply a purge gas to the sterilizer chamber after the sterilant gas mixture is withdrawn to the storage recovery tank, wherein the gas recovery assembly evacuates an additional portion of the purge gas from the sterilizer chamber to the storage tank to enrich the gas mixture for later reutilization in subsequent sterilization cycles.

Abstract: The present invention relates to methods of sanitizing structures, buildings, passenger occupiable vehicles, and other enclosed or enclosable spaces. More particularly, the present invention relates to a method for killing and/or removing pests and their allergens, bacteria, viruses, fungi, molds, volatile organic compounds and other dangerous substances, from such objects or enclosures.

Abstract: A sterilization process challenge device comprising a solid body comprised of walls which define a space, wherein the space can fully contain a sterilization indicator and a volume of gas of at least 5 cubic centimeters and not more than 1000 cubic centimeters; a flow restrictor associated with the solid body such that any flow of the gas out of the space and any flow of a sterilant into the space is restricted; wherein the sterilization indicator indicates whether or not it has been contacted by the sterilant for a time and at a temperature sufficient to sterilize an article; and wherein the walls of the solid body are impervious to the sterilant and have a thickness of at least 0.3 centimeter, methods of using the device and a kit including the device are disclosed.

Abstract: A mobile deactivation apparatus for deactivating contaminants within a defined region that includes a source of a vaporous deactivating agent, a gas handling system, a support member, a drive means, a control system, and a power system is disclosed. The gas handling system dispenses the vaporous deactivating agent to the defined region. The support member is movable in the defined region and supports the source of the vaporous deactivating agent and the gas handling system. The support member can be propelled by the drive means. The control system is programmed to control the operation of the gas handling system and the drive means. A power system is provided to supply power to the mobile deactivation apparatus.

Abstract: A large convoluted space, such as a multi-story concourse of an airport is isolated and a chemical or biological agent in the concourse is deactivated. A plurality of deactivation gas sources (100) introduce a deactivation gas at multiple points along the concourse. Fans (66, 106) circulate the deactivation gas, sensors (110) sense concentrations of the deactivation gas at numerous points around the concourse and exhaust fans (66) exhaust air, spent deactivation gas, and some deactivation gas. A control processor (84) controls the generators, the circulation fans, and the exhaust fans in accordance with the gas concentrations sensed by the sensors to increase and decrease deactivation gas concentration in selected subregions of the concourse by increasing or decreasing generation, increasing or decreasing exhausting, or altering flow patterns among subregions.

Abstract: A laser disinfection apparatus with a spectroscopic sensor for performing real-time monitoring of the apparatus's effectiveness. The spectroscopic sensor measures optical spectra of the biological tissue and obtains the concentration of the bacterial/fungal cells by tracking the intensity variation of a fingerprint region of the optical spectra. The acquired bacterial concentration information is used to evaluate the effectiveness of the laser treatment as well as to provide feed-back control of the laser parameters to obtain the optimum disinfection result.

Abstract: This invention describes a mobile system for reducing emission of a slurry, such as a liquid manure, where said mobile system is mounted on a mobile unit and comprises a slurry tanker in liquid communication with means for adding/injecting an acid into said slurry, where said slurry tanker and/or means for adding/injecting an acid into said slurry is in communication with distributing means for allowing a reduced emission slurry to be placed on the application site, where said means for adding/injecting an acid into said slurry comprises an acid tank, where said acid tank is arranged as a front tank on said mobile unit.

Abstract: A noninvasive blood sugar level measurement method includes a process of changing a blood sugar level of a biological body, a process of noninvasively measuring biological feature amounts at plural measurement points that are timewise shifted from each other, a process of invasively measuring blood sugar levels of the biological body by the number of times that is lesser than the measurement points of the biological feature amount, a process of obtaining an approximate curve indicating temporal change in the actually measured blood sugar level that is obtained by the invasive measurement, a process of obtaining, using the obtained approximate curve, blood sugar levels (interpolation blood sugar levels) that would be obtained by the invasive measurement at the measurement times when the biological feature amounts are noninvasively measured, and a process of associating the values of the biological feature amounts at the times corresponding to the respective measurement points of the biological feature amounts

Abstract: A method of detecting bacterial kill using a vaporized sterilant includes the steps of generating a sterilant/water vapour and supplying the vapour to a sealed space to be sterilized. The supply of sterilant/water vapour is continued to raise the concentration of the sterilant in the sealed space, and the concentration of the sterilant in the vapour is monitored to determine when the rate of change of the concentration falls to a predetermined minimal level indicating that condensation has occurred resulting in kill of any bacteria present in the space. Supply of sterilant/water vapour to the space is then terminated.

Abstract: A method for determining the effectiveness of a waste water tank deodorizer includes the steps of (i) providing a synthetic waste water media and a hydrogen sulfide generating microorganism; (ii) introducing in any order to the synthetic waste water media the hydrogen sulfide generating microorganism and a waste water tank deodorizer to be tested, and (iii) measuring the time or delay for the generation of hydrogen sulfide to occur beginning with combining of the hydrogen sulfide generating microorganism, the waste water tank deodorizer and the synthetic waste water media. Alternatively, measurement is also disclosed involving the number of bacteria present in the waste water during the test period. The invention includes a novel synthetic waste composition for use in the above method comprising at least a peptone, an animal protein extract, urea or a urea-containing compound, a metallic salt, a fiber-containing grain product and a cellulose-containing product.

Abstract: A mobile deactivation apparatus for deactivating contaminants within a defined region that includes a source of a vaporous deactivating agent, a gas handling system, a support member, a drive means, a control system, and a power system is disclosed. The gas handling system dispenses the vaporous deactivating agent to the defined region. The support member is movable in the defined region and supports the source of the vaporous deactivating agent and the gas handling system. The support member can be propelled by the drive means. The control system is programmed to control the operation of the gas handling system and the drive means. A power system is provided to supply power to the mobile deactivation apparatus.

Abstract: A C-Band Disinfector disinfects objects placed within the interior of the device by subjecting the objects to emissions of UV-C radiation. Multiple UV-C sensors measure UV-C radiation dosage to the objects and control the period of operation of the device, terminating the emission of UV-C radiation only after all of the UV-C radiation sensors have received a minimum predetermined dosage.

Abstract: An integrated sterilization and materials handling system for sterilizing and handling items such as medical waste, paper, or other things comprises a cart for carrying a removable bin for holding the items to be sterilized, and a sterilization chamber that receives the bin when it is removed from the cart. The various embodiments include a bin that is dumpable with the cart using existing dumping apparatus, a bin that pivots on the cart to permit dumping of the items from the bin by tilting the bin, and a bin used primarily in a dry heat sterilization process of the invention when sterilizing items that are not to be discarded after sterilization to facilitate loading and unloading of the bin. The system has thermal energy booster plates mounted in the sterilization chamber for providing dry radiant heat to the chamber, and the system may vary process times, process pressures, and process temperatures to predetermine settings that correlate to the weight of the items to be sterilized.

Abstract: A nonwoven wipe having a reversible sanitizer indicator for multiple uses and recharges is provided. The nonwoven wipe includes a cloth-like nonwoven fabric coated with a reversible color-changing ink formulation. During use, the nonwoven wipe is impregnated with a quaternary ammonium compound-based sanitizer. When the level of free quaternary ammonium compound falls below a threshold level, the color-changing ink formulation changes from a first color to a second color, indicating the need to recharge the wipe. When the nonwoven wipe is recharged with sanitizer solution, the color-changing ink formulation changes back to the first color.

Abstract: The disclosure relates to a portable apparatus for decontaminating an enclosed room or other space which includes a passageway having an air inlet at one end and an outlet at the other end. A pump causes a flow of air through the passageway from the inlet to the outlet. A heater heats the air flowing through the passageway to a predetermined temperature, a flash evaporator being in communication with the passageway. Liquid decontaminant is pumped from a supply of decontaminant to the evaporator to be evaporated and for the evaporant to be delivered to the air flow in the passage to flow in the air flow from the outlet to the rooms to be decontaminated. A universally rotating nozzle is provided at the outlet to distribute the decontaminant containing air throughout the enclosure.

Abstract: A method for sterilizing objects with ozone comprises the steps of: positioning the objects in a sterilization chamber (10); effecting an ozone-containing gas atmosphere in the sterilization chamber (10); making the ozone-containing gas circulate via a circulation pipe (20) outside the sterilization room (10), wherein the circulation pipe (20) is provided with an ozone generator (60) and a water mouthpiece (73); establishing an air humidity in a range of approximately 80%; establishing an ozone concentration in the gas higher than 0.2 mgr/l; defining in advance an ozone performance equivalent (OPEQ); measuring the ozone concentration (OC) during the sterilization process on certain measurement moments; calculating the time integral of the measured ozone concentration; wherein the sterilization process is continued until the time integral of the measured ozone concentration is minimally equal to the predetermined ozone performance equivalent.

Abstract: An air purification system for a heating, ventilation, and air conditioning (HVAC) system includes an ozone generating device that is used to introduce ozone into an air stream flowing through the ozone generating device. The ozone is used to remove contaminants, including volatile organic compounds (VOCs), from the air stream. The purification system includes sensors in various locations within the HVAC system to measure a concentration of constituents in the air. In some embodiments, the constituents may include ozone and VOCs, such as toluene, butene, and propanal. To control an amount of ozone generated, the purification system controls an amount of electrical power to the ozone generating device. To control a concentration of ozone generated, the purification system controls a flow rate of air through the ozone generating device.

Abstract: The present invention relates to a dispensing device for at least one air treatment agent comprising at least one airborne agent detector operable to detect airborne agents in the air; receiving means for receiving at least one source of air treatment agent; and control means for releasing an amount of at least one air treatment agent from a source thereof received in the receiving means when a current airborne agent level detected by the airborne agent detector deviates from a background airborne agent level detected by the airborne agent detector by more than a predetermined amount, wherein the background airborne agent level is calculated by the device. The present invention also relates to a method of dispensing at least one air treatment agent.

Abstract: A method for determining the relative level of contamination of a component in a water treatment infrastructure is disclosed. The method includes the steps of at least partially filling the component with water; isolating the component from the remainder of the infrastructure; taking a control water sample from the component at a point in time Ts and determining the quality of the water sample at Ts; storing the control water sample for a preselected test period Tt and in a container which will not affect the quality of the water sample; taking a second water sample from the component at a point in time Ts+Tt; determining the quality of the second water sample and the quality of the control water sample at Ts+Tt and calculating the water quality decrease in the control sample and the second sample during the test period Tt. The relative level of contamination of the component is calculated by subtracting any water quality decrease in the control sample from the water quality decrease in the second sample.

Abstract: A process for operating a packaging transport system in which objects packed in packaging which is bacteria-impermeable but gas-permeable are sterilized, whereafter the packaging, possibly after removal of some packaging parts, is sterilized again on its outer side in a sterilization chamber which acts as a transfer lock, and then guided into a sterile clean room. The objects involved may, in particular, be syringes having injecting needles, which are filled and sealed in a filling device located in the clean room. Sterilization in the sterilization chamber is accomplished by abruptly applying a vapor mix consisting of water steam and hydrogen peroxide vapor as a condensate layer on the outer side of the transport containers, and immediately removing the condensate layer and the uncondensed vapor mix from the sterilization chamber before any significant amount of hydrogen peroxide is deposited inside the transport containers.

Abstract: An infrared source and a gas sensor, a first layer and a second layer effecting bandpass filter characteristics for an operating frequency range.

Abstract: A system and method including a wand-type ultraviolet (UV) light assembly positioned above a keyboard and other computer peripheral device(s) to be sanitized. The UV light assembly is preferably moved across the peripheral device surface to eliminate nearly all germs, bacteria, viruses, pathogens and other microorganisms that have accumulated on the surfaces of the keyboard and other peripherals. Desirably, the system operation is managed by a controller device which is in communication with a host computer. In addition, the system allows for the collection and analysis of system performance data. The invention provides an extremely effective, compact, virtually cost-free and environmentally-friendly solution to disinfecting surfaces of keyboards and other peripheral devices.

Abstract: An electrical device for performing a particular function includes a system circuit for performing the function, and a dedicated power supply for providing power to the circuit. Both the system circuit and the power supply are hermetically sealed within a housing. The device within the housing is intended to be sterilized using high temperature, reaching a sterilization temperature. According to the invention, the device includes a thermal switch which is electrically connected between the system circuit and the power supply. The thermal switch is switchable between an open position wherein the system circuit is electrically isolated from the power supply and receives no power therefrom and a closed position wherein the system circuit is electrically connected to the power supply and receives power therefrom. The thermal switch switches from its closed position to its open position in response to the temperature within the housing rising to a predetermined switch-open temperature value.

Abstract: The present invention provides a system for detecting a malodor and dispensing an air treatment when needed. In an exemplary embodiment of the present invention, the system includes a selection mechanism which allows the user to choose how the system dispenses the air treatment, a sensor, a timing control circuit coupled with the sensor, and a delivery system coupled with the timing control circuit. Upon detection of a malodor by the sensor, the sensor communicates with the timing control circuit which, in turn, communicates with the delivery system to dispense the air treatment. In another exemplary embodiment of the present invention, an air-freshening system is shown that combines a continuous dispensing system with a sensing dispensing system.

Abstract: Systems and methods for detecting presence of a thing, the thing treated with a descenter, one method including in an area in which it is possible that a thing treated with a descenter is present, using a detector to detect a descenter level in the area, producing a detected descenter level, comparing the detected descenter level to a normal descenter level for the area, determining that the detected descenter level is different from the normal descenter level, said determining indicating the possible presence of a thing treated with a descenter; and using a trained service animal to facilitate such a method.

Abstract: Method and device for measuring and controlling the circulation of fluids in endoscope channels. Device includes hermetic chamber having a known volume and a low level and high level sensor to control filling and emptying. The chamber is connected to a filtered air compressor, an injection pump to inject a drying product and a circulation pump to circulate cleaning and disinfecting solutions contained in the tank. The tank can receive at least one endoscope and includes injectors connected by a solenoid valve to the hermetic chamber. The device is used to verify and record the flow of cleaning, disinfecting, rinsing and drying solutions passing through each of the endoscope channels during the cleaning and disinfecting operations.

Abstract: A conditioning process and equipment are provided for removing hardness from water circulated in a system. A sidestream from such system is routed to a reaction chamber and back to the system. A conditioner is added to the sidestream water and in some embodiments is routed through a sidestream inlet from the top of the reaction chamber to its lower portion in a swirling motion. A buffer is added to the sidestream exiting the reaction chamber, and in some embodiments is added upstream of a pH sensor. In some embodiments a polymer is added. A fluid bed develops in the reaction chamber consisting of conditioner, buffer, precipitated solids and sidestream water. An upper outlet on the reaction chamber regulates the height of the fluid bed, and a drain provides for periodic discharge of the lower fluid bed. In some embodiments, a corrosion inhibitor blend is pre-mixed with the buffer.

Abstract: A decontamination system having modular components to efficiently decontaminate enclosures of various dimensions. The decontamination system includes a main unit comprising a controller, a supply of liquid decontaminant, a vaporizer for vaporizing the liquid decontaminant to generate a vaporized decontaminant, and a destroyer for breaking down hydrogen peroxide into water and oxygen. An embodiment of the present invention includes a detachable dryer and a detachable external blower that are in fluid communication with the main unit. An optional external destroyer and an optional external dryer may be controlled by the controller of the main unit to respectively increase the destroying and drying capacity of the decontamination system.

Abstract: A system for recovery and reutilization of sterilant gas mixture from a sterilizer chamber includes a storage tank in gaseous communication with a sterilizer chamber via a gas recovery assembly, wherein after sterilization the gas recovery assembly evacuates the sterilant gas mixture to the storage recovery tank. The system also includes an inert purge gas supply adapted to supply a purge gas to the sterilizer chamber after the sterilant gas mixture is withdrawn to the storage recovery tank, wherein the gas recovery assembly evacuates an additional portion of the purge gas from the sterilizer chamber to the storage tank to enrich the gas mixture for later reutilization in subsequent sterilization cycles.