Electromagnetic processing of fluid materials is disclosed. Separation of one or more ionic components of a fluid, and combination of one or more ionic components in a fluid, are discussed.

Plant growth and energy storage is supported by complicated bio-electro-chemical processes causing the intake of water and nutrients from the ground. These processes are affected by adaptations such as root structure and genetic characteristics that facilitate a plant species' survival in its native regions. Disclosed are methods for altering the water and nutrient intake through electrical alignment of molecules with dipole characteristics and ionized molecules, and apparatus for performing the disclosed methods. Through the disclosed invention, the capacity of water molecules to interact at an electro-chemical level with soil elements can be increased or reduced to guide absorption-transport activity, facilitating optimal plant growth for agricultural and other purposes.

A system and method for electromagnetic activation or active metals generation is disclosed herein. This system may include: a cylindrical housing; a plurality of inductor coils connected to a three phase alternating current source, where inductor coils are positioned in an interior space between the cylindrical housing and an exterior face of a conduit; the conduit installed inside the cylindrical housing, where the conduit includes a dielectric section with a perforated baffle a mechanism to secure the conduit to the cylindrical housing, a tube for adding a chemically active agent into the conduit, a dielectric section with a lid and a gas valve positioned on top of the lid at an end of the conduit, and a plurality of metal particles occupying the internal volume of the conduit and maintained in a relative position with respect to the inductor coils.

A magnetic water treatment system for use in treating water for agricultural and other uses. A magnetic column centered around a perforated shearing tube provides a number of magnets amplified by steel rods to deliver water that has smaller water clusters by treating the water with the application of magnetic fields. Magnetic fields perpendicular to the travel of water and in other directions provide for the efficient treatment of the water.

A method for providing magnetic fluid treatment in which at least one electrical conductor comprising at least one length of an electrical conducting material having a first conductor lead and a second conductor lead is energized. The electrical conductor is coiled with at least one turn to form at least one uninterrupted coil of electrical conductor encircling at least a section of an outer surface of a conduit. Energizing the at least one electrical conductor establishes a magnetic field having lines of flux directed along a flow path formed by the conduit and concentrated in a non-magnetically conductive region located between two magnetically conductive regions. A fluid is directed through the conduit past the non-magnetically conductive region to provide magnetic fluid treatment to the fluid.

Provided are water treatment systems and methods of treating water. A water treatment system comprises a first wire coil wrapped around a water pipe at a first angle, wherein the first angle is less than 90, as measured from a direction of water flow through the water pipe; a second wire coil wrapped around the water pipe at a second angle, wherein the second angle is more than 90, as measured from the direction of water flow through the water pipe; and a controller configured to send a first electric current to the first wire coil to generate a first magnetic field and a second electric current to the second wire coil to generate a second magnetic field.

A control system of chlorinated brine generator with descaling device includes an electrolysis cell and a controller unit. The electrolysis cell includes a cover, a chlorinated brine generator, and a descaling device. The cover includes an inlet and an outlet, wherein a waterway is defined between the inlet and the outlet. The chlorinated brine generator is arranged in the waterway, and includes a plurality of electrode plates. The descaling device is arranged adjacent to the chlorinated brine generator and in the waterway, and includes an ultrasonic vibrating equipment. The ultrasonic vibrating equipment includes a vibrator. The controller unit includes an electrolysis-and-power controlling module, an ultrasonic generating module, and a main controlling module. The electrolysis-and-power controlling module controls the chlorinated brine generator. The ultrasonic generating module controls the descaling device. The main controlling module controls the electrolysis-and-power controlling module and the ultrasonic generating module, and save a descaling schedule.

An electric and magnetic field inducing device is disclosed. The device comprises a malleable core with notches and electrically conductive windings wrapped around the flexible core around the notches. An insulative coating isolates the windings from the core. The device is wrapped around a conduit with flowing fluid and current passed through the windings to treat the fluid. The device can also be placed around a body part and current passed through the windings to provide health benefits.

Electromagnetic processing of fluid materials is disclosed. Separation of one or more ionic components of a fluid, and combination of one or more ionic components in a fluid, are discussed.

Some described examples relate to an apparatus for removing magnetically active particles from a fluid. The apparatus comprises at least one vessel for receiving a fluid comprising magnetically active or ferrous particles, and at least one electromagnet operable to produce a magnetic field within the vessel to act on the magnetically active or ferrous particles in use.