GIH Turbine:🙂

• Output: The output of a 1 MW hydro turbine never varies. GIH systems can generate 14 878 megawatt-hours (MWh) annually,  Yes 7 times more than wind or solar,  reason its perpetual and its 3 phase 

• Location Dependency: Stand-alone units have no location dependency. A utility scale unit requires a slope of ground that does not go uphill within its path.

• The Capex Cost per kwhr based on a 60 year life is  typically  $0.002 / kwhr

• Land usage of 0,5m2 per Kw

• Solar Power (Photovoltaic System):😡

  • Output: The output of a 1 MW solar photovoltaic (PV) system can vary but is typically estimated to produce around 1,500 to 2,000 megawatt-hours (MWh) of electricity annually, depending on factors like sunlight hours, shading, and panel efficiency.

  • Location Dependency: Solar power generation is highly dependent on sunlight, so locations with more sunlight will have higher output. Cloud cover, time of day, and seasonal variations can impact output.

  • The Capex Cost per kwhr based on a 20 year life is  typically  $0.03 / kwhr

  • Land usage of 32m2 per Kw

• Wind Turbine:😡

  • Output: The output of a 1 MW wind turbine can vary widely based on the wind speed at the location. On average, a 1 MW wind turbine might produce around 2,000 to 2,500 MWh annually, but this can be significantly higher or lower depending on wind conditions.

  • Location Dependency: Wind power is influenced by the wind speed, and higher wind speeds generally result in higher electricity generation. The wind resource at a specific location is a critical factor.

  • The Capex Cost per kwhr based on a 25 year life is typically  $0.0256 / kwhr (land based installed)

  • Land usage of 4m2 per Kw

Nuclear: 😡😡😡 Nuclear waste is a bomb waiting to be hit by a hypersonic missile 

GIH 

• Lowest levelized cost

• Smallest environmental footprint

• Longest lifespan

• Highest availability factor