A method of sanitising a body of water including the steps of adding sodium chlorite and/or sodium chlorate to the body of water and converting the sodium chlorite and/or sodium chlorate to chlorine dioxide in an electrolysis cell which is in fluid communication with a water circulation system of the body of water.

A device for selectively removing a perfluorinated compound may include an adsorption electrooxidation tank including a reaction unit having a plurality of electrodes and granular activated carbon configured to oxidize and decompose a perfluorinated compound in raw water through adsorption and electrooxidation, a power supply device configured to supply power to the adsorption electrooxidation tank, and a head adjustment pipe unit configured to maintain a water level within the reaction unit at a height greater than or equal to a reaction height of the electrode.

A system for detecting, fluid flow in an electrolytic sanitizer generator. The fluid flow detection system provides for an efficient detection of the flow of water across the electrodes or blades of an electrolysis cell. The fluid flow detection system in one embodiment includes an electronic fluid flow controller operatively coupled to the electrolytic sanitizer generator. In another embodiment the fluid flow detection system includes a light fluid flow detection system operatively coupled to the electrolytic sanitizer generator. In yet another embodiment, the fluid flow detection system includes both an electronic fluid flow controller and a light fluid flow detection system operatively coupled to the electrolytic sanitizer generator to provide redundancy to the flow detection system.

Technologies are generally described for an apparatus configured to process a volume of a fluid and provide an electrolyzed fluid. Example apparatuses described herein may include a base cell, electrodes and/or a variable expansion cell. The base cell may be configured to contain at least a portion of the volume of the fluid. Electrodes may include an anode and a cathode. The electrodes may be configured to be mounted within the base cell. The variable expansion cell may be coupled to the base cell, and adjustably configured to change a volumetric space of the apparatus to accommodate the volume of the fluid such that the electrodes are substantially immersed in the fluid.

Contaminants are filtered from a fluid flow stream and the filter is regenerated by a process including steps of: providing a filter material comprising both carbon and potassium iodide; passing a contaminated fluid stream in contact with the filter material; adsorbing contaminants from the fluid stream onto surfaces in the filter material; passing an electric current through the filter material with adsorbed contaminant thereon; disassociating contaminant from the surfaces of the filter material; and removing disassociated contaminant from the filter material by carrying away the disassociated contaminant in a fluid flow mass.

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 ballast water treatment device capable of suppressing damage to a filter is provided. The ballast water treatment device is provided with: a filtering device including a filter for filtering ballast water; a plurality of lines for a flow of the ballast water; a ballast pump for pumping the ballast water to flow into the plurality of lines; and a control unit for controlling the ballast pump to cause the ballast water to flow into a desired line. The plurality of lines includes an object line connected to the filtering device, and a discharge line diverging from the object line and connected to an outside of a system. The control unit controls the ballast pump to discharge the ballast water remaining in the object line to the outside of the system via the discharge line, by causing a ballast water flow through the object line and the discharge line.

A method of sanitising a body of water including the steps of adding sodium chlorite and/or sodium chlorate to the body of water and converting the sodium chlorite and/or sodium chlorate to chlorine dioxide in an electrolysis cell which is in fluid communication with a water circulation system of the body of water, wherein chlorine is also added to the body of water.

The present invention relates to an electrolyzed water manufacturing device for producing hypochlorous acid water containing hypochlorous acid using hydrochloric acid as an electrolyte, comprising: a hydrochloric acid container for storing the hydrochloric acid as the electrolyte; an electrolytic bath which is connected to the hydrochloric acid container, includes an electrode, and produces slightly weak acidic hypochlorous acid water containing a high-density chlorine solution through electrolysis of the hydrochloric acid; a hydrochloric acid supply pump provided between the hydrochloric acid container and the electrolytic bath so as to supply the hydrochloric acid to the electrolytic bath; and a venturi pipe which is connected to an upper part of the electrolytic bath, is formed between an inlet and an outlet through which dilution water passes, includes a neck part having a smaller pipe diameter in comparison with the inlet and the outlet, and an extraction pipe for connecting the neck part and the electrolytic bath, such that the high-density chlorine solution generated from the electrolytic bath is aspirated through the reduction of the pressure generated from the neck part when the dilution water passes through, and the aspirated high-density chlorine solution is diluted using the dilution solution and the diluted high-density chlorine solution is discharged. The apparatus for producing slightly weak acidic hypochlorous acid water, according to the present invention further, comprises: a discharging pipe connected to the outlet of the venturi pipe; and a screw blade which is inserted into the discharging pipe and accelerates the contact reaction between the high-density chlorine solution discharged from the non-diaphragm type electrolytic bath and the dilution water, wherein the screw blade is preferably composed of flexible plastic material.

A desalination system (100) having an intake unit (110) providing seawater to a pre-treatment unit (120) connected to a reverse osmosis (RO) desalination unit (130) and a post treatment unit (150). The desalination system (100) is configured to operate without any external addition of chemicals to simplify logistics and regulation concerns. The units of the system are configured to prevent biofouling, scaling and corrosion by mechanical and biological means including high flow speeds, biological flocculation of colloids, and making the water entering the RO units inhospitable to bacteria and other organisms that cause biofouling, hence preventing their settlement and removing them with the brine. Recovery rate is lowered and energy is recovered to increase the energetic efficiency and minerals that are added to the product water are taken from the brine.