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Recently, the U.
S.
Department of Energy released the report "Enhancing the Potential of Wind Power in the United States", indicating that the next generation of wind power in the United States will popularize large wind turbine technology
.
The U.
S.
Department of Energy evaluated the potential to develop wind power in all 50 states, and the study concluded that the United States has abundant wind resources, spread across all 50 states
.
Advances in wind turbine technology (e.
g.
, raising the height of wind turbine towers, enlarging rotors, etc.
) can take advantage of the strong and sustained wind resources
found in higher airspace.
In regions with faster wind speeds, advances in wind power technology have led to a wide range of cost competitive advantages
.
In regions with slower wind speeds, market trends and continuous technological innovation are gradually unlocking the cost-effectiveness
of wind energy.
With technological progress, increasing the average height of wind turbines to 110 meters will help increase the area of wind power development to 4.
3 million square kilometers, an increase of 54%
compared to the average height of wind turbines of 80 meters.
Increasing the average height of wind turbines to 140 meters will help increase the area of wind power development to 4.
6 million square kilometers, which is 67%
more than when the average height of wind turbines is 80 meters.
Advances in next-generation wind power technology can be used to break through the limitations of existing wind power layouts and realize the potential
of wind power in the southeastern United States.
In addition, improved site selection practices could cumulatively achieve 65 GW of installed wind power capacity, meet the power needs of more than 17 million homes, and reduce wind power costs
by more than 90%.
Federal agencies have taken some concrete steps
to fully realize the potential of wind power resources in the United States.
For example, the Federal Aviation Administration (FAA) is developing lighting guidelines for wind turbines taller than 500 feet, and the Department of Energy plans to fund innovative research programs
aimed at increasing the height of wind turbine towers and enlarging rotors.
Recently, the U.
S.
Department of Energy released the report "Enhancing the Potential of Wind Power in the United States", indicating that the next generation of wind power in the United States will popularize large wind turbine technology
.
The U.
S.
Department of Energy evaluated the potential to develop wind power in all 50 states, and the study concluded that the United States has abundant wind resources, spread across all 50 states
.
Advances in wind turbine technology (e.
g.
, raising the height of wind turbine towers, enlarging rotors, etc.
) can take advantage of the strong and sustained wind resources
found in higher airspace.
In regions with faster wind speeds, advances in wind power technology have led to a wide range of cost competitive advantages
.
In regions with slower wind speeds, market trends and continuous technological innovation are gradually unlocking the cost-effectiveness
of wind energy.
With technological progress, increasing the average height of wind turbines to 110 meters will help increase the area of wind power development to 4.
3 million square kilometers, an increase of 54%
compared to the average height of wind turbines of 80 meters.
Increasing the average height of wind turbines to 140 meters will help increase the area of wind power development to 4.
6 million square kilometers, which is 67%
more than when the average height of wind turbines is 80 meters.
Advances in next-generation wind power technology can be used to break through the limitations of existing wind power layouts and realize the potential
of wind power in the southeastern United States.
In addition, improved site selection practices could cumulatively achieve 65 GW of installed wind power capacity, meet the power needs of more than 17 million homes, and reduce wind power costs
by more than 90%.
Federal agencies have taken some concrete steps
to fully realize the potential of wind power resources in the United States.
For example, the Federal Aviation Administration (FAA) is developing lighting guidelines for wind turbines taller than 500 feet, and the Department of Energy plans to fund innovative research programs
aimed at increasing the height of wind turbine towers and enlarging rotors.
