A nanofluid manufactured by nuclear irradiating a mixture that comprises a precursor and a base fluid, a method of manufacturing the nanofluid, and a system for use in manufacturing the nanofluid. The combination of the uniform irradiation dosage results in substantially no sedimentation of the suspended nanoparticles. The formed nanofluid has been observed to have better properties compared to those known in the art.

A system to generate gases from a liquid or a solid source including a generator, a dual arbitrary generator, a turbine, a thermoelectric generator, a pulse-width modulation device, a suction pump, a radiolytic cell, and magnets. The radiolytic cell includes a body, a first disk, a second disk having a plurality of perforations, and a plurality of radiotrodes. Each radiotrodes includes a large diameter tube, a small diameter tube concentric with the large diameter tube, and metallic wires having an end fixed into an upper section of the large and small diameter tubes and to lower sections of the large and small diameter tubes. The second ends of each one of the metallic wires are connected into the perforations of the corresponding first disk or second disk. The radiotrodes hang up inside the electrolytic cells by the metallic wires producing movement or vibration of the radiotrodes inside the radiolytic cell.

A method of dissociating hydrogen and oxygen from a water molecule comprises isolating a predetermined volume of water between concentrically-mounted electrodes; applying a magnetic field across the predetermined volume of water, the magnetic field focused radially and attracting diametrically across the electrodes; exciting water molecules in the isolated volume of water to a resonant harmonic frequency; and synchronously applying short burst high voltage, high frequency AC pulse packets to the isolated volume of water to create an electric field. The AC pulse packets have a burst width of up to 1 millisecond and a voltage up to about 10 MV, and generate an oscillating electromotive force which acts on the excited water molecules to dissociate hydrogen and oxygen.

An in-liquid plasma generation device includes a housing which holds a liquid in an internal space, a gas supply tube which includes an opening in the internal space and discharges a gas into the liquid through the opening, a first electrode which has projecting part projecting into the internal space via the opening from inside of the gas supply tube, the projecting part including a conductor covered by a dielectric, a second electrode which surrounds the projecting part of the first electrode and includes a conductor isolated from the liquid by a dielectric, and a voltage applier which applies a voltage to between the first electrode and the second electrode. A space between the projecting part and the second electrode is a flow passage in which the gas discharged from the opening flows.

In the liquid phase reforming (LPR) of oxygenated C,H-containing compounds such as alcohols, various strategies are disclosed for managing byproduct CO.sub.2. Important processing options include those in which electrolyte, consumed in capturing or precipitating the CO.sub.2 generated from LPR, is regenerated or not regenerated, with carbon emissions potentially being avoided in the latter case. With regeneration, different chemistries are possible, such as in the case of a regeneration cycle utilizing hydroxide anions to precipitate a solid, carbonate form of CO.sub.2 that is generated from reforming. Alternatively, a reaction and regeneration system may use carbonate anions to “capture” CO.sub.2 and thereby maintain it as aqueous, solubilized bicarbonate form.

A nanobubble generator includes a pipe and an energy source. The pipe includes an external surface, an internal surface, an internal cavity through which liquid can flow, a liquid inlet, and a liquid outlet. The internal cavity is configured to create a reduced pressure zone between the liquid inlet and liquid outlet. The nanobubble generator also includes an energy source. The energy source includes (a) a power supply, a signal generator, and at least one electrical conductor configured to apply an oscillating magnetic field to the pipe, (b) a power supply and a pair of electrical conductors configured to generate an electrical arc between the two electrical conductors and apply the electrical arc to the pipe, or (c) a combination thereof. The generator creates nanobubbles in the absence of an external source of gas.

A reactor that operates with ultraviolet light emitting diodes (UV-LEDs) to attain UV photoreactions or UV photo-initiated reaction in a fluid flow for various applications, including water purification. The UV-LED reactor is comprised of a conduit means for passing fluid flow, an ultraviolet light emitting diode (UV-LED), and a radiation-focusing element to focus the UV-LED radiation to the fluid in the longitudinal direction of the conduit proportionally to the fluid velocity in the cross section of the conduit.

In order to attain an efficient decomposition process by water plasma, a decomposition processor includes a water plasma generator which is configured to inject water plasma, from the injection port, by arc discharge generated between negative and positive electrodes; and a supply device configured to supply a decomposition target object to a water plasma jet stream injected from the water plasma generator, wherein the decomposition target object is decomposed by the water plasma. The supply device has a nozzle for providing the decomposition target object from a tip, and the negative electrode, the injection port, the positive electrode and the nozzle are arranged in that order along the center axis line of the injection port. The tip of the nozzle is placed inside of the water plasma jet stream.

In order to stabilize injection of water plasma, a vortex water flow generator forms a vortex water flow for passing arc discharge. The vortex water flow generator includes a cylindrical portion configured to form a vortex water flow along an inner circumference, a first middle partition and a second middle partition protruding from the inner circumference of the cylindrical portion. The first middle partition and the second middle partition respectively have an opening to include a center axis line position of the cylindrical portion. An opening of the second middle partition on the side of the positive electrode is larger than an opening of the first middle partition on the side of the negative electrode.

Large scale systems for the activation of water and other aqueous solution using molecular resonant effect technology. Methods of using activated liquids to affect biological systems, including the inhibition of tumor cell proliferation, NK cell mediated cytolysis of tumor cells, the prevention of amyloid plaques, the inhibition of microbial growth, and the prevention or reduction of viral and bacterial infection. The methods include administration of liquids subjected to molecular resonant effect technology to those in need thereof.