Power Generation

When it comes to power generation, the world is looking for a more efficient way to accumulate and consume the power that we create. In reference to the idea of any and all commercial power generation applications, the Sæmsen design fits right into the pocket of all power generation applications.

For example, a commercial power turbine is a mechanical generator. The force generated from the power turbine generates heat which is converted to electrical energy. In this case, the transformed electrical energy from the power turbine is considered the input source. From here, the input source is sent through Sæmsen’s unique technology. If an input source exists, the Sæmsen technology will work to create a significantly higher amount of energy than what the input source provides. This same concept can be applied to all commercial power generation applications which would include, battery, coal, steam, nuclear, wind, solar, oil, etc.

Power Storage

For an understanding of this concept, we will use an electric vehicle for an example. One of the top selling electric vehicles (EV) is powered by an 80-100 kWh battery. This battery typically encompasses the entire bottom portion of the car, weighs over 1,000 lbs. and contains thousands of cells wired in parallel.

With the Sæmsen design, the footprint of the EV battery could significantly be reduced while increasing power and runtime. The average electric vehicle travels 350 miles per charge (Los Angeles to San Francisco) but with the Sæmsen technology, the electric vehicle could travel much further. The increase in power and runtime comes directly from the our innovative technology which ultimately improves the efficiency and utilization of the stored power.