An apparatus that can be connected to a conventional sprayer bottle that permits the sprayer bottle to generate ozonated and ionized water to be used as a cleaning fluid. The apparatus includes an ozonator element submerged in the bottle water via a first electrical conductor and an ionizer lead submerged in the water via a second electrical conductor which is connected to an ionizer that is not submerged. Respective apertures are formed in the sidewall of the bottle, each having respective electrical connectors to permit the respective electrical connections to different power sources. The dip tube of the spray head is then passed through the top opening and into the water in the bottle and the spray head is secured onto the bottle. Electrical energy is provided through the respective conductors to ozonate and ionize the water in the bottle for use a cleaning agent. Humidifier or vaporizer versions of this invention provide an ozonated and ionized water mist or vapor.

A cleaning, sanitizing or disinfecting scrubbing device includes a body, a non-thermal plasma generator and damp wipe. Generated plasma activates fluid in the wipe. The device may include spacer posts between the body and wipe and a conductive mesh between the body and wipe or embedded in the wipe. Another embodiment includes a reservoir for holding a water-based fluid, a fluid delivery element connected to the reservoir by a tube through which the fluid can flow and a non-thermal plasma generator. The non-thermal plasma generator activates the fluid. In one embodiment the scrubbing device is a mitt. In another embodiment the scrubbing device is a glove.

A portable hydrogen-containing ozone water humidifier including a housing with a mist outlet, a water tank for storing water, a hydrogen-containing ozone water generator, an ultrasonic atomizer for converting water into mist, a rechargeable battery and an electronic controller is revealed. An outlet pipe is connected to the bottom of the water tank and the hydrogen-containing ozone water generator is disposed on the outlet pipe for hydrolysis of the water to generate oxygen and ozone gas at an anode plate and hydrogen gas at a cathode plate and further get disinfectant water formed by ozone water mixed with hydrogen-rich water while the ultrasonic atomizer is arranged at an outlet end of the outlet pipe. The rechargeable battery provides power to the electronic controller, the hydrogen-containing ozone water generator, and the ultrasonic atomizer for driving them to work. The humidifier is compact and easy to carry.

The present invention relates to an apparatus for generating chlorine disinfectant that arranges, a salt water supply part, a hypochlorite generation part, a control part.

An apparatus that can be connected to a conventional sprayer bottle that permits the sprayer bottle to generate ozonated water to be used as a cleaning fluid. The apparatus includes an ozonator element coupled at one end of an electrical cable and an electrical connector coupled at the other end of the electrical cable. An aperture is formed in the sidewall of the bottle and the ozonator element, electrical cable and connector are passed through a top opening in the bottle portion. The electrical connector is then releasably secured within the aperture with the ozonator element being submerged in the water contained within the bottle. The dip tube of the spray head is then passed through the top opening and into the water in the bottle and the spray head is secured onto the bottle. Electrical energy is provided through the connector to the ozonator element to ozonate the water in the bottle for predetermined period of time after which the sprayer bottle contains ozonated water for cleaning. After another predetermined period of time, the ozonator element is energized again to ensure ozonated water is always available. A related apparatus can be connected between a feedpipe and a water reservoir for making the reservoir an ozonating water source.

Electro oxidation membrane evaporator 1 comprises sweep air handler 60; fluid tank 20 defining a fluid container; fluid contactor/separator 30; oxidation cell 40; and scrubber 80. Electro oxidation membrane evaporator 1 may allow higher percent water recovery from wastewater prior to delivering brine to a brine water recovery system and can allow O.sub.2 from air such as cabin air to continuously diffuse into the wastewater as O.sub.2 is consumed to generate oxidants, helping to eliminate the low oxidant environment at the end of the cycle that causes pH to remain high, and low pH prevents precipitates from forming for longer so more water can be evaporated from the wastewater.

The present invention relates to a handheld electronic soap device (1), where pH neutral water is poured in the device through a water inlet (2) into an electrolytic cell (11). The pH neutral water is split into acidic ionized and alkaline ionized water by an electrolysis. The alkaline and acidic water can be used for cleaning and rinsing of skin or hair. More particularly, the alkaline water enables to clean skin or hair, whereas the acid water is important to maintain the acid environment on hairs and skin. According to the present invention a user can select between acidic or alkaline water to be poured out of the device through a water outlet (4).

An ultra-high alkaline electrolyzed water generation system with a pH 12.5-13.5 pH is provided. The ultra-high alkaline electrolyzed water generation system includes an electrolytic cell, a first tank, a second tank, a water tank, and a plurality of flowlines. The ultra-high alkaline electrolyzed water generation system is cost-effective. The ultra-high alkaline electrolyzed water generation system enables production of ultra-high alkaline electrolyzed water at faster rate for commercial and industrial applications with a large shelf life and can be stored in containers for later use. The invention also provides an electrolytic cell. The electrolytic cell includes a cathode chamber, an anode chamber, and a cation permselective membrane. The electrolytic cell enables production of the ultra-high alkaline electrolyzed water. The ultra-high alkaline electrolyzed water with a configurable pH range has the ability to sterilize, clean and disinfect without the use of harsh chemicals.

A disclosed portable replenishable scalable electrodialysis device includes conductive members extending the cell length, with a first conductive member connected to a negative polarity current and a second conductive member connected to a positive polarity current source. Each cell includes four membranes, with a first membrane positioned adjacent a first conductive member, a second membrane positioned adjacent a second conductive member, etc. Each cell has five channels, with a first channel positioned between the first membrane and the first conductive member, the second channel positioned between the second membrane and the second conductive member, etc. The device is connected to sources of salt water, diluent water, and water with conductive material, where the water with the conductive material is flowed through a first channel and a second channel, and the salt water is flowed through a third and fourth channel and the diluent is flowed through said fifth channel.

A cleaning, sanitizing or disinfecting scrubbing device includes a body, a non-thermal plasma generator and damp wipe. Generated plasma activates fluid in the wipe. The device may include spacer posts between the body and wipe and a conductive mesh between the body and wipe or embedded in the wipe. Another embodiment includes a reservoir for holding a water-based fluid, a fluid delivery element connected to the reservoir by a tube through which the fluid can flow and a non-thermal plasma generator. The non-thermal plasma generator activates the fluid. In one embodiment the scrubbing device is a mitt. In another embodiment the scrubbing device is a glove.