Nuclear fusion would be a massive improvement over fission in that it produces much lower levels of radioactive waste and greenhouse gases, does not require enriched nuclear material that could be used to produce weapons, has a far lower risk of meltdown, and can be powered by more sustainable fuel sources. Fusion has long been hailed as a long-term solution to humankind’s energy needs.
Inventor: Salvatore Pais
A plasma compression fusion device which includes a hollow duct and at least one pair of opposing counter-spinning dynamic fusors. The hollow duct includes a vacuum chamber disposed within the hollow duct. Each dynamic fusor has a plurality of orifices and an outer surface which is electrically charged. In combination, the pair(s) of dynamic fusors create a concentrated magnetic energy flux and electromagnetic radiation within the vacuum chamber, whereby the concentrated magnetic energy flux compresses a mixture of gases that are injected through the orifices to the vacuum chamber such that a plasma core is created, and the to electromagnetic radiation heats the plasma core, while produced magnetic fields confine the plasma core between the dynamic fusors, such that when an additional mixture of gases is introduced into the plasma core through the orifices, an energy gain is created.
Scientist Behind The Navy’s “UFO Patents” has now filed one for a compact fusion reactor (October 9, 2019)
“At present there are few envisioned fusion reactors/devices that come in a small, compact package (ranging from 0.3 to 2 meters in diameter) and typically they use different versions of plasma magnetic confinement. Three such devices are the Lockheed Martin (LM) Skunk Works Compact Fusion Reactor (LM-CFR) , the EMC2 Polywell fusion concept, and the Princeton Field-Reversed Configuration (PFRC) machine. […] These devices feature short plasma confinement times, possible plasma instabilities with the scaling of size, and it is questionable whether they have the ability of achieving the break – even fusion condition, let alone a self-sustained plasma burn leading to ignition.”
It can generate a Terawatt (1TW = 1.000.000.000.000W) for as little as 1000 watts of input power. It is claimed in the patent application that this plasma compression fusion device is capable of producing power in the gigawatt (1 billion watts) to terawatt (1 trillion watts) range and above with input power only in the kilowatt (1,000 watts) to megawatt (1,000,000 watts) range. By comparison, America’s largest nuclear power plant, the Palo Verde nuclear power plant in Arizona, generates around 4,000 megawatts (4 gigawatts), and the A1B nuclear reactors designed for the Navy’s Gerald R. Ford-class aircraft carriers generate around 700 megawatts. The patent even claims that the device can “possibly lead to ignition plasma burn, that is self-sustained plasma burn without need for external input power.”
Most fusion reactor designs employ magnetic confinement to contain fusion reactions. This involves torus-shaped coils of superconductors to produce powerful magnetic fields that confine a reactor’s plasma core.