PWS Plasma Technologies

What is Plasma Technologies?

Plasma is a special state of matter in which charged atoms known as ions exist in a gaseous form. Neon lights, our Sun, and lightning are all examples of plasma. As in all gases, the atoms in plasma are highly mobile and move with high speeds. The movement of its many charged particles make plasma capable of conducting electricity and being affected by magnetic fields.
Scientists create plasma by superheating gaseous hydrogen, which is the most abundant element in the universe.

Hydrogen fuel technology is a promising direction. Hydrogen is environmentally friendly energy source.

All magnets generate a magnetic field that can direct the movement of charged particles within said field. The most powerful magnets being developed today are made of a special technology known as high-temperature superconductors (HTS). These superconductors can carry an immense amount of electrical current with low dissipation, meaning very little of the current is lost to the environment.
The generated magnetic fields are so powerful that they can confine plasma inside the field, directing the atoms to stay within a particular space. The generated magnetic fields make it possible to control plasma flows.

Plasma engines have been used in satellites for over 60 years. Dozens of different plasma engine designs for satellites already exist. Plasma engines have proven themselves in the aerospace industry.

Plasma engines have low fuel consumption and high-speed characteristics of jet flow.

Also, plasma engines have large specific impulse and high value of specific thrust.

We have developed innovations for power system with transonic-supersonic plasma flows by patented vortex electromagnetic field technology.
For example, when the gas or plasma flow slows down, the temperature and pressure rise due to molecular friction and compression but the plasma must first be accelerated.
We increase thermodynamic effects in the plasma flow by implementation of aerodynamic effects.
The using of vortex (or the spiral) flow path allows achieving a significant increase of energy at small dimensions of device, and oppositely directed gas or plasma flows decelerate each other.
We hold, accelerate and decelerate transonic-supersonic plasma flows by patented vortex electromagnetic field technology.
We have patents of original vortex electromagnetic field technology in the special purpose devices.