The newly discovered, Arc-Flashpoint Technology (AFPT) is the subject of several contemporaneously filed inventions teaching the combining of the properties of ionic plasma with nucleomagnetics as is further disclosed in the Amo Vigen Scrunched Cube Atomic Model (AVSCAM invention). By utilizing dissimilar metals in a special crucible, while a high voltage, low amperage, pulse modulated electrical current is passing between a Cathode part to an Anode part in an aqueous liquid, free floating ions are released in such abundance, that the amount of energy delivered into the system is fully transferred into heat just from the water molecules, by the explosion of the plasma released Hydrogen and Oxygen gasses when the two gasses recombine in the said crucible and ignite to form a controlled explosive reaction that in the process generates a massive amount of heat. The nucleomagnetics feature (AVSC Method) comprised within the system, draws the free ions from the unwanted saline (if brine water is used) which not only generates an unusual amount of heat instantaneously, but also creates potable drinking water at the same time, due to the sequestration of the sodium component.

A tankless water heater comprising a bare wire heating element is disclosed which is connected to an electronic temperature control system. At least one sensor is furthermore connected to the electronic temperature control system. A fluid heating chamber is made of insulating non conductive material wherein the heating element is located. At least one switch is connected to at least one bare wire heating element and to a phase of an AC line. An electrode system and an electronic detecting circuit are interconnected. The electrode system is arranged in a fluid channel, in a short distance from the bare wire heating element which acts like electrode 1. The electrode 2 of the electrode system is made from a conductive tube material hydraulically connected to a throttle valve made from non conductive material to insulate the electrode 2 from the grounded collector. The electrode 2 is electrically connected to a electronic control system via a conductive material.

A direct high voltage flow-through water heater system transmits high voltage power to a remote ice penetrating robot, converts the power to heat in a very small space, and then uses the heat to melt the ice, providing a path ahead of the robot allowing penetration deeper into a remote ice-covered location, such ice of substantial (e.g., kilometers) thickness, such as, for example, glacial ice caps. High voltage, low current, AC power is passed through a moving conducting fluid, inducing resistive heating in the fluid with 100% efficiency. The exiting fluid is stripped of common mode voltage before exiting. Energy transfer from the electrical source to the fluid is instantaneous and occurs at 100% efficiency. In an alternative embodiment, the fluid heater system operates at standard residential/industrial mains voltages and runs from 220 VAC as other applications of the present invention include the traditional water heater industry as well.

Apparatus and methods for generating thermal energy from a pulsed DC electric power source utilizing pairs of electrodes disposed in a water medium. Electric pulses are provided at a frequency up to 20 MHz. Efficiencies are obtained when multiple pairs of electrodes are powered by the pulsed DC electric power source. The electrodes may be rods, plates, cylinders, or other useful shapes. The electrodes exposed to water may be a metal or alloy of nickel, platinum, palladium, or tungsten. The DC pulse generator is electrically connected to the electrodes to provide a source of pulsed direct current electric power. The input polarity to the electrodes may be periodically reversed or alternated between the anode and cathode polarity to limit erosion/electroplating of electrode material.

A vessel including a concentrator configured to concentrate electromagnetic (EM) radiation received from an EM radiation source and a complex configured to absorb EM radiation to generate heat. The vessel is configured to receive a cool fluid from the cool fluid source, concentrate the EM radiation using the concentrator, apply the EM radiation to the complex, and transform, using the heat generated by the complex, the cool fluid to the heated fluid. The complex is at least one of consisting of copper nanoparticles, copper oxide nanoparticles, nanoshells, nanorods, carbon moieties, encapsulated nanoshells, encapsulated nanoparticles, and branched nanostructures. Further, the EM radiation is at least one of EM radiation in an ultraviolet region of an electromagnetic spectrum, in a visible region of the electromagnetic spectrum, and in an infrared region of the electromagnetic spectrum.

An apparatus for the continuous ohmic thermal treatment of a fluid product includes a conduit defining a longitudinal flow path for the product to be treated extending between an inlet and an outlet. The conduit includes a first and a second heating chamber that are disposed longitudinally along an axis and arranged in sequence, with each heating chamber including a first electrode and a second electrode, separated by an electrical insulating member. The first electrode is located near the inlet or the outlet of the conduit, and the second electrode is located in an intermediate zone of the conduit. A first and a second rotor extend into the first chamber and the second chamber, respectively, and are rotatable about the longitudinal axis. A support system is configured to support in the radial direction the first and second rotors at the intermediate zone of the conduit.

A corrosion protection performance degradation detection sensor includes a detection electrode that reacts with the corrosion inhibitor dissolved in the solvent and forms on a surface thereof an electrode surface film which inhibits corrosion, a counter electrode that is disposed so as to face the detection electrode, and an AC power supply that applies an AC voltage between the detection electrode and the counter electrode. A change in concentration of the corrosion inhibitor in the solvent is detected, on the basis of a change in impedance of the electrode surface film formed on the surface of the detection electrode.

A liquid heater such as a direct electrical resistance liquid heater having multiple flow channels is provided with a temperature-sensing element in the form of a wire extending across numerous channels, preferably all of the channels, near the downstream ends of the channels. The resistance of the wire represents the average temperature of the liquid passing through all of the channels, and hence the temperature of the mixed liquid exiting from the heater. A bubble suppressing structure is provided in the vicinity of the wire.

A system is provided for heating a fluid in one or more cells, each including an electrode pair. The cells are arranged along a flow path, and a controller is configured to regulate the flow of the fluid from an inlet to the cells, determine at a first cell the electrical and thermal conductivity of the fluid, determine from the electrical conductivity a voltage to apply from a power source across the electrode pairs at a current sufficient to heat the fluid, pass the current from the electrode pairs to the fluid to produce the heated fluid, and determine a voltage to apply from the power source across the electrode pairs at a current sufficient to heat the fluid in a second cell based on the thermal conductivity of the fluid in the first cell. Related methods are also disclosed.

A magnetic induction thermal heat unit, capable of producing heat by magnetic field, inducing direct agitation and friction, at the molecular level within a ferrous magnetic or semi-magnetic thermal conductor. The thermal conductors can be joined or bonded to non-magnetic or ferrous materials as a conductive heat path to a thermal transfer device.