An electrolytic assembly and a laundry treatment apparatus. An electrolytic assembly includes an electrolytic device, a heating member, and a mounting device. The electrolytic device includes an electrode. The electrolytic device and/or heating member is connected to the mounting device. The heating member and the electrode are located on the same side of the mounting device. The electrolytic assembly can produce a hydroxyl radical having a strong oxidization activity by electrolyzing water by means of the electrolytic device to perform disinfection and sterilization, and can further heat a liquid to a required temperature by means of the heating member. The integration of the heating member and the electrolytic device can facilitate the arrangement of the structures of the heating member and the electrolytic device more compact and facilitate overall assembly/disassembly.

The invention is an electrolysis apparatus for water sterilization and pipe cleaning, and comprises: a pipe 100 having a forward flowing portion 110, a backward flowing portion 120; an electrolyzing chamber 200 positioned between the forward flowing portion 110 and the backward flowing portion 120 of the pipe 100 with an electrolyte inlet 210 and an outlet 220 communicating with the forward flowing portion 110 or the backward flowing portion 120 to let the products generated from the electrolysis reaction exhaust into the forward flowing portion 110 or the backward flowing portion 120; and +, − electrodes 300 installed in the electrolyzing chamber 200.

A method for electrochemical disinfection of an aqueous solution, the method comprising the steps of: providing one or more disinfecting cells for retaining an aqueous solution, each disinfecting cell including one or more electrode pairs positioned therein; arranging the one or more disinfecting cells along a flow path, the flow path including an inlet to and an outlet from the one or more disinfecting cells; determining at the one or more disinfecting cells the electrical conductivity, or specific conductance of the aqueous solution; determining from the electrical conductivity, or specific conductance of the aqueous solution a voltage to apply across the one or more electrode pairs at a current sufficient to produce disinfection species therein; and passing the current from the one or more electrode pairs to the aqueous solution to produce a modified aqueous solution.

There are provided processes for treating wastewater. The processes can comprise treating a mixture comprising the wastewater and an activated sludge, in a single reactor, with an electric current having a density of less than about 55 A/m.sup.2, by means of at least one anode and at least one cathode that define therebetween an electrical zone for treating the mixture; exposing the mixture to an intermittent ON/OFF electrical exposure mode to the electric current in which an OFF period of time is about 1 to about 10 times longer than an ON period of time; and maintaining an adequate oxidation-reduction potential in the single reactor. Such processes allow for substantial removal of carbon, nitrogen and phosphorus from the wastewater in the single reactor of various forms and for obtaining another mixture comprising a treated wastewater and solids.

A method for increasing the quantity of dissolved oxygen in water includes addition of an oxidant to the water to increase the oxidation-reduction potential (ORP) of the water to between about 400 and 850 mV, followed by electrolysis to generate oxygen gas. The voltage applied to the electrolytic cells during electrolysis is less than 300 mV. The dissolved oxygen content of the water exiting the electrolytic cell is about 90% of saturation to super saturation.

The present invention discloses mask maker machine for producing a mask of any desired shape. The mask maker machine comprises an emulsification box having an acidic chamber and an alkaline chamber to produce acidic and alkaline water with the help of electrolysis process. The user is able to select a desired pH scale via an input unit and once the desired pH is achieved the raw material is added in the corresponding alkaline or acidic chamber as per the requirement of the mask. The heating element heats the masking solution to a desired temperature for homogenous mixing of the masking solution. Further, the user can put any desired shape of mask mold on a base plate and the masking solution is poured in the mask mold through an outlet valve. Furthermore, the mask maker machine is able to produce the mask of variable pH as per the user skin.

The present invention relates to a hydrogen water and sterile water-generating device that generates hydrogen water and sterile water by electrolysis. The hydrogen water and sterile water-generating device includes an electrolysis part that has at least two electrodes and electrolyzes water, a water introducing channel that introduces water into the electrolysis part, and a switch mechanism that switches the polarity of the electrodes between positive and negative, and hydrogen water and sterile water are generated in the same path by the switch mechanism switching the polarity of the electrodes between positive and negative during electrolysis.

A hybrid process and system for separating water from an inlet brine solution is disclosed. The hybrid process couples at least two different separation processes/systems. The inlet brine solution is fed into a first separation process, which produces a water distillate and a brine concentrate. The brine concentrate from the first separation process is then fed into the second separation process to further recover additional water. The excess heat from the second separation process is supplied to the first separation process.

Device for obtaining electrolysis products from an alkali metal chloride solution where a cathode circuit contains a circulation pump with an overflow device for the return flow of pump liquid, which continuously secures the forced circulation of the catholyte via a heat exchanger, a cathode compartment and a capacitive separator for separating the hydrogen from the catholyte. In the discharge of the hydrogen from the capacitive separator for separation of the hydrogen from the catholyte, a cooled humidity separator is installed, the condensate collection container of which is connected via a dosage pump with the freshwater feed to the mixing device of the freshwater flow with the gaseous oxidant mixture.

The invention relates to a easily adaptable or DIY installation water cleaning device on any existing spa or pool, said cleaning device including an electrolysis module equipped with a particular boron-doped diamond electrode on silicum substrate. The inventions also relates to a method to clean water on spa or pools using a water cleaning device comprising said particular boron-doped diamond electrode present on the elecrolysis module. The invention also relates to electrolyzed bathing water for use in the treatment of inflammatory diseases of the skin and for use for use in the treatment of wound healing of the skin.