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 phaseÂ
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 missileÂ
GIHÂ
Lowest levelized cost
Smallest environmental footprint
Longest lifespan
Highest availability factorÂ