A nuclear energy facility has a small area footprint, requiring about 1.3 square miles per 1,000 megawatts of installed capacity. This figure is based on the median land area of the 59 nuclear plant sites in the United States. In addition, nuclear energy facilities have an average capacity factor of 90 percent, much higher than intermittent sources like wind and solar.
By contrast, wind farm capacity factors range from 32 to 47 percent, depending on differences in wind resources in a given area and improvements in turbine technology. Solar PV capacity factors also vary based on location and technology, from 17 to 28 percent.
Taking these factors into account, a wind farm would need an installed capacity between 1,900 megawatts and 2,800 MW to generate the same amount of electricity in a year as a 1,000-MW nuclear energy facility. Such a facility would require between 260 square miles and 360 square miles of land.
A solar PV facility must have an installed capacity of 3,300 MW and 5,400 MW to match a 1,000-MW nuclear facility’s output, requiring between 45 and 75 square miles.
For comparison, the District of Columbia’s total land area is 68 square miles. The island of Manhattan is 34 square miles, and New York City’s five boroughs (Manhattan, Brooklyn, Queens, Staten Island and the Bronx) take up 305 square miles.