The present invention provides a liquid activation apparatus capable of generating a liquid that can maintain a high active power for a long period of time. A water activation apparatus 1 as a liquid activation apparatus has an electrically conductive inner cylindrical body 20, an electrically conductive inlet connecting pipe 23 connected to the inner cylindrical body 20, an electrically conductive outlet connecting pipe 24 connected to the inner cylindrical body 20, an electrically conductive outer cylindrical body 22 disposed outside of the inner cylindrical body 20 and being electrically isolated from the inner cylindrical body 20, the inlet connecting pipe 23, and the outlet connecting pipe 24, a corrugated pipe 51 disposed inside of the inner cylindrical body 20, a honeycomb mesh portion 52 disposed inside of the corrugated pipe 51, and a plurality of liquid activation ball members 53 filled radially inward of the honeycomb mesh portion 52. Each of the liquid activation ball members includes a ball case 55 having a closed-shell cavity structure and a ball housed within the ball case 55. The ball 56 contains one or more types of functional minerals capable of emitting an ion beam, a magnetic beam, a far infrared ray, or a trace of radiation.

A process for treating water includes the steps of passing the water through a conduit having spaced apart cavitation zones and a central laminar flow zone to increase negative hydrogen ions in the water, to increase electron activity, and to decrease molecular clustering, and thereby reduce surface tension of the water for improved hydration by a body consuming the water, including people, animals, and plants.

A liquid activation and electrolytic apparatus includes: a liquid activation apparatus that includes a liquid activator with a black radiation sintered body radiating electromagnetic waves and an electromagnetic wave converging body and assembled bodies integrated together with the black radiation sintered body on the outside, the electromagnetic wave converging body on the inside, and a liquid activation region by the electromagnetic waves formed on the inside of the electromagnetic wave converging body and activates, in the above region, a liquid portion of a liquid electrolytic solution; and an electrolytic unit that includes an electrolysis container using a titanium or platinum electrode as a negative electrode and a platinum electrode as a positive electrode and containing the electrolytic solution and a power source applying a variable direct-current voltage to the negative and positive electrodes and performs the electrolysis of the electrolytic solution with the activated liquid portion in the electrolysis container.

A system and method are provided in at least one embodiment to process water to produce gas that can be separated into at least two gas flows using a water treatment system having a disk-pack rotating in it to cause out gassing from the water. In a further embodiment, the method and system use the gas released from the water to produce substantially fresh water from the processed salt water.

A diffusiophoretic water filtration device includes a diffusiophoretic flow chamber having an inlet and an outlet, the flow chamber for receiving the colloidal suspension at the inlet from the inlet manifold, and passing the colloidal suspension between the inlet and at least one outlet in a flow direction; the flow chamber having a removable and reassemblable cover defining a boundary of the diffusiophoretic flow chamber.

The invention relates to a method and apparatus for physically working and/or heating media, in particular liquids. The high expenditure of energy of the known methods can be avoided, with reduced environmental impact, by the hydrodynamically worked medium being exposed to polar and/or ionic electrochemical potentials and electrochemical signals RC AC.

A container with an interchangeable crystal display may include a container body sized to accommodate a volume of a liquid, the container body having an upper end and a lower end; a cap designed to removably engage with the upper end of the container body; a container base designed to removably engage with the lower end of the container body; and an interchangeable crystal display removably secured to a surface of the container base such that the interchangeable crystal display extends upwards from the container base into an interior of the container body when the container base is engaged with the lower end of the container body.

A system for and method of cleaving a bond between a first atom and a second atom in a molecule of a material are presented. One embodiment of the technique includes selecting a first electromagnetic radiation frequency, the first electromagnetic radiation frequency including a product of a golden mean and a base frequency associated with at least one of the first atom and the second atom. Such an embodiment further includes directing a first electromagnetic radiation at the material, where the first electromagnetic radiation has a frequency equal to the first electromagnetic radiation frequency, and where the first electromagnetic radiation frequency is sufficient to cleave the bond between the first atom and the second atom.

The present invention relates to systems and methods for cleaning materials, such as flooring and upholstery. In some cases, the systems and methods use an electrolytic cell to electrolyze a solution comprising sodium carbonate, sodium bicarbonate, sodium acetate, sodium percarbonate, potassium carbonate, potassium bicarbonate, and/or any other suitable chemical to generate electrolyzed alkaline water and/or electrolyzed oxidizing water. In some cases, the cell comprises a recirculation loop that recirculates anolyte through an anode compartment of the cell. In some cases, the cell further comprises a senor and a processor, where the processor is configured to automatically change an operation of the cell, based on a reading from the sensor. In some cases, a fluid flows past a magnet before entering the cell. In some additional cases, fluid from the cell is conditioned by being split into multiple conduits that run in proximity to each other. Additional implementations are described.

The present invention relates to systems and methods for cleaning materials, such as flooring and upholstery. In some cases, the systems and methods use an electrolytic cell to electrolyze a solution comprising sodium carbonate, sodium bicarbonate, sodium acetate, sodium percarbonate, potassium carbonate, potassium bicarbonate, and/or any other suitable chemical to generate electrolyzed alkaline water and/or electrolyzed oxidizing water. In some cases, the cell comprises a recirculation loop that recirculates anolyte through an anode compartment of the cell. In some cases, the cell further comprises a senor and a processor, where the processor is configured to automatically change an operation of the cell, based on a reading from the sensor. In some cases, a fluid flows past a magnet before entering the cell. In some additional cases, fluid from the cell is conditioned by being split into multiple conduits that run in proximity to each other. Additional implementations are described.