TARRASCH INFINITY

THE GREEN RECOVERY

The economic recovery from the COVID-19 Pandemic will be protracted, arduous, and marked by transformation. There is a growing discussion among experts about how we must make fundamental improvements to it when we rebuild the global economy. One point that the experts unanimously agree on is the need to update the global energy infrastructure. This move toward green energy has been decades in the making. Green energy sources, primarily wind and solar, were once thought of as an ideal; renewable, but ultimately too expensive and inferior to traditional energy sources such as coal. After steady innovation, renewable energy, especially wind energy, has now become a cornerstone of the future of energy infrastructure.

SUSTAINABLE TRENDS

Governments around the world are relying heavily on wind energy to power their electrical grids. The private sector has followed suit, using wind generation as a cheap, reliable energy source, especially in less populated areas. Individuals are even following suit, investing more and more into energy self-sufficiency. The motivations behind these trends come from all over the map. Many people—and many governments— are focussed on sustainability; they want clean energy sources that do not damage the planet. Others—especially businesses—need cheap, reliable long-term energy solutions to recoup their investments faster. And many governments, businesses, and private individuals simply want energy independence. These trends existed long before COVID, but the global Pandemic accelerated them to the point that there is no looking back.

WIND SOLUTIONS

TARRASCH INFINITE is not just any wind turbine, but include a full spectrum of design features that make them ideal for sustainable use:

  1. Power generation curve. The wind speed needed to start rotation is lower than other types of wind turbines, and its rate of power generation is also superior, meaning that between wind speeds of 5 to 8 m/s, our turbines produce 10% to 30% power than other types of wind turbines.
  2. Security. Using the vertical blades and triangular double-fulcrum design, the turbine’s main force points are concentrated in the hub, drastically reducing blade loss and fractures for safer operation.
  3. Noise. Horizontal rotation and aircraft wing design reduce operation noise output to levels that are not noticeable during standard operation.
  4. Wind resistance. Our horizontal rotation and triangular double fulcrum design mean that our turbines bear little pressure, meaning they can withstand extreme, hurricane- or typhoon-like wind speeds (45 m/s).
  5. Rotation radius. Because of its design structure and special operating principles, it has a smaller radius of rotation than other types of wind turbines, thus saving space while improving efficiency
  6. Effective wind speed range. Our special control principles make our turbine’s effective wind speed range 2.5 m/s to 25m/s, which is the most efficient use of wind resources, allowing it to obtain greater power generation and improve wind power investment economics.
  7. Unintrusive installation and operation. The turbine can be installed near facilities, such as residences, parks, schools, building rooftops, roads, and streets without disturbing the local environment.
  8. Higher Reliability. The special structure creates a greater ratio of power to volume and power to weight, meaning that our coreless disc motor lasts up to 8 times longer than traditional motors.