Construction on Watts Bar Unit 2 began in 1973, but halted in 1985, then resumed in 2007
The first American nuclear power plant in 20 years is now officially producing electricity and connected to the power grid, as of June 3.
According to the US Energy Information Administration, the Tennessee Valley Authority’s (TVA) Watts Bar Unit 2 became the first nuclear power plant to come online since 1996, when Watts Bar Unit 1 started operations.
Watts Bar Unit 2 is undergoing final testing, producing electricity at incremental levels of power, as TVA prepares to start commercial operation later this summer.
The new reactor is designed to add 1,150 megawatts (MW) of electricity generating capacity to southeastern Tennessee.
Watts Bar Unit 2 is the first plant in the United States to meet new regulations from the US Nuclear Regulatory Commission (NRC) that were established after the 2011 earthquake and tsunami that damaged the Fukushima Daiichi Nuclear Plant in Japan.
After the NRC issued an operating license for the unit in Oct. 2015, 193 new fuel assemblies were loaded into the reactor vessel the following month. TVA announced at the end of May that the reactor achieved its first sustained nuclear fission reaction.
Construction on Watts Bar Unit 2 originally began in 1973, but construction was halted in 1985 after the NRC identified weaknesses in TVA’s nuclear program.
In Aug. 2007, the TVA board of directors authorized the completion of Watts Bar Unit 2, and construction started in Oct. 2007.
At that time, a study found Unit 2 to be effectively 60 per cent complete with $1.7 billion invested.
The study said the plant could be finished in five years at an additional cost of $2.5 billion.
However, both the timeline and cost estimate developed in 2007 proved to be overly optimistic, as construction was not completed until 2015, and costs ultimately totaled $4.7 billion.
Vogtle Electric Generating Plant Units 3 and 4 in Georgia and Virgil C. Summer Nuclear Generating Station Units 2 and 3 in South Carolina are scheduled to become operational in 2019–20, adding 4,540 MW of generation capacity.