An apparatus providing mechanical-to-electrical energy conversion generates electrical current by moving a conductive fluid in the presence of magnetic field. The motion of the fluid is induced by a mechanical energy source and the generated electrical current is directed to a useful load. The proposed apparatus utilizes a conductive fluid as a “liquid rotor” has substantially different radial velocity distribution than the conventional, prior art solid rotor. The apparatus includes an inverter, controlled by the flow of the conductive fluid, to generate a train of pulses as an output, where the pulses are used by an associated transformer to provide an AC output voltage.

A system for generating electrical energy by efficient movement of a specialized inductive medium that fulfills a need for new sources of electricity. The system for generating electrical energy by efficient movement of a specialized inductive medium includes an evacuated tube serving as a cathode disposed on a pipe, the evacuated tube contains a plurality of emulsified copper, the emulsified copper serves as the specialized inductive medium. The overall system includes a gear pump that moves the emulsified copper at high speed through the pipe where it is influenced by the magnet and the electric current is induced in the high-speed emulsified copper.

A system for generating electrical energy by efficient movement of a specialized inductive medium that fulfills a need for new sources of electricity. The system for generating electrical energy by efficient movement of a specialized inductive medium includes an evacuated tube serving as a cathode disposed on a pipe, the evacuated tube contains a plurality of emulsified copper, the emulsified copper serves as the specialized inductive medium. The overall system includes a gear pump that moves the emulsified copper at high speed through the pipe where it is influenced by the magnet and the electric current is induced in the high-speed emulsified copper.

A system for generating electrical energy by efficient movement of a specialized inductive medium that fulfills a need for new sources of electricity. The system for generating electrical energy by efficient movement of a specialized inductive medium includes an evacuated tube serving as a cathode disposed on a pipe, the evacuated tube contains a plurality of emulsified copper, the emulsified copper serves as the specialized inductive medium. The overall system includes a gear pump that moves the emulsified copper at high speed through the pipe where it is influenced by the magnet and the electric current is induced in the high-speed emulsified copper.

A system for generating electrical energy by efficient movement of a specialized inductive medium that fulfills a need for new sources of electricity. The system for generating electrical energy by efficient movement of a specialized inductive medium includes an evacuated tube serving as a cathode disposed on a pipe, the evacuated tube contains a plurality of emulsified copper, the emulsified copper serves as the specialized inductive medium. The overall system includes a gear pump that moves the emulsified copper at high speed through the pipe where it is influenced by the magnet and the electric current is induced in the high-speed emulsified copper.

An exhaust section for an aircraft gas turbine engine includes an exhaust nozzle in a downstream serial flow relationship with the gas turbine engine having a fan section, a compressor section, a combustion section, a turbine section, and an exhaust section. The compressor section compresses intake air from the fan section, which is mixed with fuel and combusted into hot gases in the combustion section. The hot gases drive the turbines of the turbine section, and are expelled from the gas turbine engine at the exhaust section.

An apparatus providing mechanical-to-electrical energy conversion generates electrical current by moving a conductive fluid in the presence of magnetic field. The motion of the fluid is induced by a mechanical energy source and the generated electrical current is directed to a useful load. The proposed apparatus utilizes a conductive fluid as a liquid rotor has substantially different radial velocity distribution than the conventional, prior art solid rotor. The apparatus includes an inverter. controlled by the flow of the conductive fluid, to generate a train of pulses as an output, where the pulses are used by an associated transformer to provide an AC output voltage.

A ferrofluid electric motor and methods are presented. A magnetic field is generated by an electromagnet, a flow of a ferrofluid is induced in response to the magnetic field, and a turbine is rotated by the flow of the ferrofluid.