Renewable energy generation process using resonant nano-particle plasma, electromagnetic cavity resonator and acoustic resonator

摘要

The invention is a renewable energy production process with resonant nano-dust plasma, with the application of a cavity resonator and an acoustic resonator. During the process the acoustic resonator is placed inside the cavity resonator, and create a series of acoustic resonances with a complex plasma made of sub-micron sized carbon dust, hydrogen isotopes and other gases between 10 Pa and 500 kPa at about 2.000° C., thus creating oscillations and thus plasmon polaritons on the surface of carbon dust particles oscillating between 10 kHz-5 GHz and in the terahertz range, which in turn produces heat or electric energy, or creates a series of nuclear transmutations. The invention is an embodiment producing renewable heat, formed by a cavity resonator (30) excited by electromagnetic fields, and an acoustic resonator (10). In the acoustic resonator (10) operated with a number of acoustic resonances, there are nano-sized dust particles (1). The electromagnetic cavity resonator (30) is cylindrical, spherical or rectangular with mirror-like internal walls (31), inside of which the cylindrical or spherical acoustic resonator (10) suitably made of heat resistant and electrically insulating material is mounted.