Emergence reactor was the first full-scale PWR nuclear power plant in the United States. leaving
Three Mile Island Nuclear Generating Station for
Middletown, Pennsylvania, April 1, 1979 Research into the peaceful uses of nuclear materials began in the United States under the auspices of the
Atomic Energy Commission, created by the
United States Atomic Energy Act of 1946. Medical scientists were interested in the effect of radiation upon the fast-growing cells of cancer, and materials were given to them, while the military services led research into other peaceful uses.
Power reactor research Argonne National Laboratory was assigned by the
United States Atomic Energy Commission (AEC) the lead role in developing commercial nuclear energy beginning in the 1940s. Between then and the turn of the 21st century, Argonne designed, built, and operated fourteen reactors at its site southwest of Chicago, and another fourteen reactors These reactors included initial experiments and test reactors that were the progenitors of today's pressurized water reactors (including naval reactors), boiling water reactors, heavy water reactors, graphite-moderated reactors, and liquid-metal cooled fast reactors, one of which was the first reactor in the world to generate electricity. Argonne and a number of other AEC contractors built a total of 52 reactors at the National Reactor Testing Station. Two were never operated; except for the Neutron Radiography Facility, all the other reactors were shut down by 2000. In the early afternoon of December 20, 1951, Argonne director
Walter Zinn and fifteen other Argonne staff members witnessed a row of four light bulbs light up in a nondescript brick building in the eastern Idaho desert. Electricity from a generator connected to
Experimental Breeder Reactor I (EBR-I) flowed through them. This was the first time that a usable amount of electrical power had ever been generated from nuclear fission. Only days afterward, the reactor produced all the electricity needed for the entire EBR complex. One ton of natural uranium can produce more than 40 gigawatt-hours of electricity—this is equivalent to burning 16,000 tons of coal or 80,000 barrels of oil. More central to EBR-I's purpose than just generating electricity, however, was its role in proving that a reactor could create more nuclear fuel as a byproduct than it consumed during operation. In 1953, tests verified that this was the case. The
US Navy took the lead, seeing the opportunity to have ships that could steam around the world at high speeds for several decades without needing to refuel, and the possibility of turning submarines into true full-time underwater vehicles. So, the Navy sent their "man in Engineering", then Captain
Hyman Rickover, well known for his great technical talents in electrical engineering and propulsion systems in addition to his skill in project management, to the AEC to start the Naval Reactors project. Rickover's work with the AEC led to the development of the
Pressurized Water Reactor (PWR), the first naval model of which was installed in the submarine . This made the boat capable of operating under water full-time – demonstrating this ability by reaching the North Pole and surfacing through the
Polar ice cap. Another type of reactor called the
Molten Salt Reactor Experiment was developed at ORNL by
Alvin Weinberg. The reactor logged more than 13,000 hours at full power during its brief run. It was able to shut down and restart. It achieved all of its objectives, such as the fission of U233, fluid fuel, greater safety and more efficient fission process leading to less actinides (or "forever wastes"). The molten salt program ended in 1973, with the Atomic Energy Commission deciding to focus on other designs as per President Nixon. Both government and industry are now reevaluating molten salt technology as an answer to the global energy challenge because it offers extremely low actinide wastes, modular construction and doesn't pose the meltdown or hydrogen (from superheated water) explosions.
Start of commercial nuclear power From the successful naval reactor program, plans were quickly developed for the use of reactors to generate steam to drive turbines turning generators. In April 1957, the SM-1 Nuclear Reactor in Fort Belvoir, Virginia was the first atomic power generator to go online and produce electrical energy to the U.S. power grid. On May 26, 1958, the first commercial nuclear power plant in the United States,
Shippingport Atomic Power Station, was opened by President
Dwight D. Eisenhower as part of his
Atoms for Peace program. As nuclear power continued to grow throughout the 1960s, the Atomic Energy Commission (AEC) anticipated that more than 1,000 reactors would be operating in the United States by 2000. As the industry continued to expand, the AEC's development and regulatory functions were separated in 1974; the
Department of Energy absorbed research and development, while the regulatory branch was spun off and turned into an
independent commission known as the U.S.
Nuclear Regulatory Commission (USNRC or simply NRC).
Pro-nuclear power stance As of February 2020,
Our World In Data stated that "nuclear energy and renewables are far, far safer than fossil fuels as regards human health, safety and carbon footprint," with nuclear energy resulting in 99.8% fewer deaths than brown coal; 99.7% fewer than coal; 99.6% fewer than oil; and 97.5% fewer than gas. Under President Obama, the
Office of Nuclear Energy stated in January 2012 that "Nuclear power has safely, reliably, and economically contributed almost 20% of electrical generation in the United States over the past two decades. It remains the single largest contributor (more than 70%) of non-greenhouse-gas-emitting electric power generation in the United States. Domestic demand for electrical energy is expected to grow by more than 30% from 2009 to 2035. At the same time, most of the currently operating nuclear power plants will begin reaching the end of their initial 20-year extension to their original 40-year operating license, for a total of 60 years of operation." It warned that if new plants do not replace those which are retired then the total fraction of generated electrical energy from nuclear power will begin to decline. The
United States Department of Energy web site states that "nuclear power is the most reliable energy source", and to a great degree "has the highest capacity factor. Natural gas and coal capacity factors are generally lower due to routine maintenance and/or refueling at these facilities while renewable plants are considered intermittent or variable sources and are mostly limited by a lack of fuel (i.e. wind, sun, or water)." Nuclear is the largest source of clean power in the United States, generating more than 800 billion kilowatt-hours of electricity each year and producing more than half of the nation's emissions-free electricity. This avoids more than 470 million metric tons of carbon each year, which is the equivalent of removing 100 million cars off of the road. In 2019, nuclear plants operated at full power more than 93% of the time, making it the most reliable energy source on the power grid. The Department of Energy and its national labs are working with industry to develop new reactors and fuels that will increase the overall performance of nuclear technologies and reduce the amount of nuclear waste that is produced. Advanced nuclear reactors "that are smaller, safer, and more efficient at half the construction cost of today's reactors" were part of
Joe Biden's clean energy proposals when he was candidate for U.S. President prior to 2021.
Opposition to nuclear power in 1979, following the
Three Mile Island accident There has been considerable opposition to the use of nuclear power in the United States. The first U.S. reactor to face public opposition was
Enrico Fermi Nuclear Generating Station in 1957. It was built approximately 30 miles from Detroit, Michigan and there was opposition from the
United Auto Workers Union.
Pacific Gas & Electric planned to build the first commercially viable nuclear power plant in the US at
Bodega Bay, north of San Francisco, California. The proposal was controversial and conflict with local citizens began in 1958. The conflict ended in 1964, with the forced abandonment of plans for the power plant. Historian
Thomas Wellock traces the birth of the
anti-nuclear movement to the controversy over Bodega Bay. In his 1963 book
Change, Hope and the Bomb,
David Lilienthal criticized nuclear developments, particularly the nuclear industry's failure to address the nuclear waste question.
J. Samuel Walker, in his book
Three Mile Island: A Nuclear Crisis in Historical Perspective, explained that the growth of the nuclear industry in the U.S. occurred in the 1970s as the
environmental movement was being formed. Environmentalists saw the advantages of nuclear power in reducing air pollution, but were critical of nuclear technology on other grounds. They were concerned about
nuclear accidents,
nuclear proliferation,
high cost of nuclear power plants,
nuclear terrorism and
radioactive waste disposal. There were many
anti-nuclear protests in the United States which captured national public attention during the 1970s and 1980s. These included the well-known
Clamshell Alliance protests at
Seabrook Station Nuclear Power Plant and the
Abalone Alliance protests at
Diablo Canyon Nuclear Power Plant in California, where thousands of protesters were arrested. Other large protests followed the 1979 Three Mile Island accident. In New York City on September 23, 1979, almost 200,000 people attended a protest against nuclear power. Anti-nuclear power protests preceded the shutdown of the
Shoreham,
Yankee Rowe,
Rancho Seco,
Maine Yankee, and about a dozen other nuclear power plants.
Historical use of Native land in nuclear energy Nuclear Energy in the United States has greatly affected Native Americans due to the large amount of mining for uranium, and disposal of nuclear waste done on Native lands over the past century. Environmental Sociologists Chad L. Smith and Gregory Hooks have deemed these areas and tribal lands as a whole "sacrifice zones", In 1986, the US government tried to put a permanent nuclear waste repository on the White Earth Reservation, but the Anishinaabe people who lived there commissioned the Minnesota legislature to prevent it, which worked. Yucca Mountain houses this temporary facility to this day and is being debated over if it should become a permanent facility. Eventually, more than 120 reactor orders were canceled, and the construction of new reactors ground to a halt. Former US Vice President
Al Gore, in 2009, commented on the historical record and reliability of nuclear power in the United States: Of the 253 nuclear power reactors originally ordered in the United States from 1953 to 2008, 48 percent were canceled, 11 percent were prematurely shut down, 14 percent experienced at least a one-year-or-more outage, and 27 percent are operating without having a year-plus outage. Thus, only about one fourth of those ordered, or about half of those completed, are still operating and have proved relatively reliable. A cover story in the February 11, 1985, issue of
Forbes magazine, commented on the overall management of the nuclear power program in the United States: The failure of the U.S. nuclear power program ranks as the largest managerial disaster in business history, a disaster on a monumental scale … only the blind, or the biased, can now think that the money has been well spent. It is a defeat for the U.S. consumer and for the competitiveness of U.S. industry, for the utilities that undertook the program and for the private enterprise system that made it possible.
Three Mile Island and after The NRC reported that the Three Mile Island accident of March 1979 "was the most serious in U.S. commercial nuclear power plant operating history, even though it led to no deaths or injuries to plant workers or members of the nearby community." The
World Nuclear Association reports that "...more than a dozen major,
independent studies have assessed the radiation releases and possible effects on the people and the environment around TMI since the 1979 accident at TMI-2. The most recent was a 13-year study on 32,000 people. None has found any adverse health effects such as cancers which might be linked to the accident." Other nuclear power incidents within the US (defined as safety-related events in civil nuclear power facilities between
INES Levels 1 and 3 include those at the
Davis–Besse Nuclear Power Station, which was the source of two of the top five highest
conditional core damage frequency nuclear incidents in the United States since 1979, according to the
U.S. Nuclear Regulatory Commission. Despite the concerns which arose among the public after the Three Mile Island incident, the accident highlights the success of the reactor's safety systems. The radioactivity released as a result of the accident was almost entirely confined within the reinforced concrete containment structure. These containment structures, found at all US nuclear power plants, were designed to successfully trap radioactive material in the event of a melt down or accident. At Three Mile Island, the containment structures operated as designed, successful in containing radioactive energy. The low levels of radioactivity released post incident is considered harmless, resulting in zero injuries and deaths of residents living in proximity to the plant. Despite many technical studies which asserted that the probability of a severe nuclear accident was low, numerous surveys showed that the public remained "very deeply distrustful and uneasy about nuclear power". Some commentators have suggested that the public's consistently negative ratings of nuclear power are reflective of the industry's unique connection with nuclear weapons: [One] reason why nuclear power is seen differently to other technologies lies in its parentage and birth. Nuclear energy was conceived in secrecy, born of war, and first revealed to the world in horror. No matter how many proponents try to separate the peaceful atom from the weapon's atom, the connection is firmly embedded in the mind of the public. These include
Rancho Seco in 1989 in California and
Trojan in 1992 in Oregon.
Humboldt Bay Nuclear Power Plant in northern California closed in 1976, 13 years after geologists discovered it was built on the Little Salmon Fault.
Shoreham Nuclear Power Plant was completed but never operated commercially as an authorized Emergency Evacuation Plan could not be agreed on due to the political climate after the Three Mile Island accident and
Chernobyl disaster. The last permanent closure of a US nuclear power plant was in 1997. US nuclear reactors were originally licensed to operate for 40-year periods. In the 1980s, the NRC determined that there were no technical issues that would preclude longer service. Over half of US nuclear reactors are over 30 years old and almost all are over twenty years old. more than 60 reactors have received 20-year extensions to their licensed lifetimes. The average
capacity factor for all US reactors has improved from below 60% in the 1970s and 1980s, to 92% in 2007. After the Three Mile Island accident, NRC-issued reactor construction permits, which had averaged more than 12 per year from 1967 through 1978, came to an abrupt halt; no permits were issued between 1979 and 2012 (in 2012, four planned new reactors received construction permits). Many permitted reactors were never built, or the projects were abandoned. Those that were completed after Three Mile island experienced a much longer time lag from construction permit to starting of operations. The Nuclear Regulatory Commission itself described its regulatory oversight of the long-delayed
Seabrook Nuclear Power Plant as "a paradigm of fragmented and uncoordinated government decision making," and "a system strangling itself and the economy in red tape." The number of operating power reactors in the US peaked at 112 in 1991, far fewer than the 177 that received construction permits. By 1998 the number of working reactors declined to 104, where it remained as of 2013. The loss of electrical generation from the eight fewer reactors since 1991 has been offset by power uprates of generating capacity at existing reactors. Despite the problems following Three Mile Island, output of nuclear-generated electricity in the US grew steadily, more than tripling over the next three decades: from 255 billion kilowatt-hours in 1979 (the year of the Three Mile Island accident), to 806 billion kilowatt-hours in 2007. Part of the increase was due to the greater number of operating reactors, which increased by 51%: from 69 reactors in 1979, to 104 in 2007. Another cause was a large increase in the capacity factor over that period. In 1978, nuclear power plants generated electricity at only 64% of their rated output capacity. Performance suffered even further during and after Three Mile Island, as a series of new safety regulations from 1979 through the mid-1980s forced operators to repeatedly shut down reactors for required retrofits. It was not until 1990 that the average capacity factor of US nuclear plants returned to the level of 1978. The capacity factor continued to rise, until 2001. Since 2001, US nuclear power plants have consistently delivered electric power at about 90% of their rated capacity. In 2016, the number of power plants was at 100 with 4 under construction.
Effects of Fukushima was shut down in 2013. There is about 1,700 tons of
spent nuclear fuel at San Onofre. Following the
2011 Japanese nuclear accidents, the U.S. Nuclear Regulatory Commission announced it would launch a comprehensive safety review of the 104 nuclear power reactors across the United States, at the request of President Obama. A total of 45 groups and individuals had formally asked the NRC to suspend all licensing and other activities at 21 proposed nuclear reactor projects in 15 states until the NRC had completed a thorough post-
Fukushima reactor crisis examination. The petitioners also asked the NRC to supplement its own investigation by establishing an independent commission comparable to that set up in the wake of the serious, though less severe, 1979 Three Mile Island accident. The Obama administration continued "to support the expansion of nuclear power in the United States, despite the crisis in Japan". An industry observer noted that post-Fukushima costs were likely to go up for both current and new nuclear power plants, due to increased requirements for on-site spent fuel management and elevated design basis threats.
Mark Cooper suggested that the cost of nuclear power, which already had risen sharply in 2010 and 2011, could "climb another 50 percent due to tighter safety oversight and regulatory delays in the wake of the reactor calamity in Japan". In 2011, London-based bank HSBC said: "With Three Mile Island and Fukushima as a backdrop, the US public may find it difficult to support major nuclear new build and we expect that no new plant extensions will be granted either. Thus we expect the clean energy standard under discussion in US legislative chambers will see a far greater emphasis on gas and
renewables plus
efficiency".
Competitiveness problems In May 2015, a senior vice president of
General Atomics stated that the U.S. nuclear industry was struggling because of comparatively low U.S. fossil fuel production costs, partly due to the
rapid development of shale gas, and high financing costs for nuclear plants. In July 2016,
Toshiba withdrew the U.S. design certification renewal for its
Advanced Boiling Water Reactor because "it has become increasingly clear that energy price declines in the US prevent Toshiba from expecting additional opportunities for ABWR construction projects". In 2016,
Governor of New York Andrew Cuomo directed the
New York Public Service Commission to consider ratepayer-financed
subsidies similar to those for renewable sources to keep nuclear power stations profitable in the competition against natural gas. In March 2018,
FirstEnergy announced plans to deactivate the
Beaver Valley,
Davis-Besse, and
Perry nuclear power plants, which are in the Ohio and Pennsylvania deregulated electricity market, for economic reasons during the next three years. In 2019, the
Energy Information Administration revised the levelized cost of electricity from new advanced nuclear power plants to be $0.0775/kWh before government subsidies, using a 4.3% cost of capital (
WACC) over a 30-year cost recovery period. Financial firm
Lazard also updated its levelized cost of electricity report costing new nuclear at between $0.118/kWh and $0.192/kWh using a commercial 7.7% cost of capital (
WACC) (pre-tax 12% cost for the higher-risk 40% equity finance and 8% cost for the 60% loan finance) over a 40-year lifetime, making it the most expensive privately financed non-peaking generation technology other than
residential solar PV. In August 2020,
Exelon decided to close the
Byron and
Dresden plants in 2021 for economic reasons, despite the plants having licenses to operate for another 20 and 10 years respectively. On September 13, 2021, the Illinois Senate approved a bill containing nearly $700 million in subsidies for the state's nuclear plants, including Byron, causing Exelon to reverse the shutdown order.
Westinghouse Chapter 11 bankruptcy On March 29, 2017, parent company
Toshiba placed
Westinghouse Electric Company in
Chapter 11 bankruptcy because of $9 billion of losses from its nuclear reactor construction projects. The projects responsible for this loss are mostly the construction of four
AP1000 reactors at
Vogtle in Georgia and
V. C. Summer in South Carolina. The U.S. government had given $8.3 billion of loan guarantees for the financing of the Vogtle nuclear reactors being built in the U.S., which are delayed but remain under construction. In July 2017, the V.C. Summer plant owners, the two largest utilities in South Carolina, terminated the project. The other U.S. new nuclear supplier,
General Electric, had already scaled back its nuclear operations as it was concerned about the economic viability of new nuclear. In the 2000s, interest in nuclear power renewed in the US, spurred by anticipated government curbs on carbon emissions, and a belief that fossil fuels would become more costly. Ultimately however, following Westinghouse's bankruptcy, only two new nuclear reactors were under construction. In addition
Watts Bar unit 2, whose construction was started in 1973 but suspended in the 1980s, was completed and commissioned in 2016.
Possible renaissance In 2008, it was reported that
The Shaw Group and Westinghouse would construct a factory at the
Port of Lake Charles at
Lake Charles, Louisiana to build components for the Westinghouse
AP1000 nuclear reactor. On October 23, 2008, it was reported that
Northrop Grumman and
Areva were planning to construct a factory in
Newport News, Virginia to build nuclear reactors. the NRC had received applications to construct 26 new reactors with applications for another 7 expected. Six of these reactors were ordered. Some applications were made to reserve places in a queue for government incentives available for the first three plants based on each innovative reactor design.
Amory Lovins added that "market forces had killed it years earlier". Lovins has been an active opponent of nuclear energy and fought against it in the 1970s, which contributed to increased costs In July 2009, the proposed
Victoria County Nuclear Power Plant was delayed, as the project proved difficult to finance. ,
AmerenUE has suspended plans to build its proposed plant in Missouri because the state Legislature would not allow it to charge consumers for some of the project's costs before the plant's completion.
The New York Times has reported that without that "financial and regulatory certainty" the company has said it could not proceed. Previously,
MidAmerican Energy Company decided to "end its pursuit of a nuclear power plant in Payette County, Idaho." MidAmerican cited cost as the primary factor in its decision. The federal government encouraged development through the
Nuclear Power 2010 Program, which coordinates efforts for building new plants, and the
Energy Policy Act. In February 2010, President
Barack Obama announced loan guarantees for two new reactors at
Georgia Power's
Vogtle Electric Generating Plant. The reactors are "just the first of what we hope will be many new nuclear projects," said
Carol Browner, director of the
White House Office of Energy and Climate Change Policy. In February 2010, the
Vermont Senate voted 26 to 4 to block operation of the
Vermont Yankee Nuclear Power Plant after 2012, citing radioactive
tritium leaks, misstatements in testimony by plant officials, a cooling tower collapse in 2007, and other problems. By state law, the renewal of the operating license must be approved by both houses of the legislature for the nuclear power plant to continue operation. In 2010, some companies withdrew their applications. In the first quarter of 2011,
renewable energy contributed 11.7 percent of total U.S. energy production (2.245 quadrillion BTUs of energy), surpassing energy production from nuclear power (2.125 quadrillion BTUs). 2011 was the first year since 1997 that renewables exceeded nuclear in US total energy production. In August 2011, the Tennessee Valley Authority (TVA) board of directors voted to move forward with the construction of the unit one reactor at the
Bellefonte Nuclear Generating Station. In addition, the TVA petitioned to restart construction on the first two units at Bellefonte. As of March 2012, many contractors had been laid off and the ultimate cost and timing for Bellefonte 1 will depend on work at another reactor TVA is completing – Watts Bar 2 in Tennessee. In February 2012, TVA said the Watts Bar 2 project was running over budget and behind schedule. The first two of the newly approved units were
Units 3 and 4 at the existing Vogtle Electric Generating Plant. As of December 2011, construction by
Southern Company on the two new nuclear units had begun. They were expected to be delivering commercial power by 2016 and 2017, respectively. One week after Southern received its license to begin major construction, a dozen groups sued to stop the expansion project, stating "public safety and environmental problems since Japan's Fukushima Daiichi nuclear reactor accident have not been taken into account". The lawsuit was dismissed in July 2012. In 2012, The NRC approved construction permits for four new nuclear reactor units at two existing plants, the first permits in 34 years. The first new permits, for two proposed reactors at the Vogtle plant, were approved in February 2012. NRC Chairman
Gregory Jaczko cast the lone dissenting vote, citing safety concerns stemming from Japan's 2011 Fukushima nuclear disaster: "I cannot support issuing this license as if Fukushima never happened". Also in 2012,
Units 2 and 3 at the
SCANA Virgil C. Summer Nuclear Generating Station in South Carolina were approved, and were scheduled to come online in 2017 and 2018, respectively. Other reactors were under consideration – a third reactor at the
Calvert Cliffs Nuclear Power Plant in Maryland, a third and fourth reactor at
South Texas Nuclear Generating Station, together with two other reactors in Texas, four in Florida, and one in Missouri. However, these have all been postponed or canceled. This ruling was founded on the absence of a final waste repository plan. In March 2013, the concrete for the basemat of
Block 2 of the Virgil C. Summer Nuclear Generating Station was poured. First concrete for Unit 3 was completed on November 4, 2013. Construction on unit 3 of Vogtle Electric Generating Plant started that month. Unit 4 was begun in November 2013. However, following Westinghouse's bankruptcy, the project was abandoned. In 2015, the
Energy Information Administration estimated that nuclear power's share of U.S. generation would fall from 19% to 15% by 2040 in its central estimate (High Oil and Gas Resource case). However, as total generation increases 24% by 2040 in the central estimate, the absolute amount of nuclear generation remains fairly flat. In 2017, the US Energy Information Administration projected that US nuclear generating capacity would decline 23% from its 2016 level of 99.1 GW, to 76.5 GW in 2050, and the nuclear share of electrical generation would go from 20% in 2016 to 11% in 2050. Driving the decline will be retirements of existing units, to be partially offset by additional units currently under construction and expected capacity expansions of existing reactors. The
Blue Castle Project is set to begin construction near
Green River, Utah in 2023. The plant will use of water annually from the Green River once both reactors are commissioned. The first reactor is scheduled to come online in 2028, with the second reactor coming online in 2030. On August 23, 2020, Forbes reported, that "[the 2020 Democratic Party platform] marks the first time since 1972 that the Democratic Party has said anything positive in its platform about nuclear energy". In April 2022, the Federal government announced a $6 billion subsidy program targeting the seven plants scheduled for closure as well as others at-risk of closure, to attempt to encourage them to continue operating. It will be funded by the
Infrastructure Investment and Jobs Act passed in November 2021. In January 2024, it was announced that Holtec International was receiving $1.5 billion from the U.S. Department of Energy to restart the
Palisades nuclear plant. The goal is to have the 800 megawatt plant running by 2025. This move has precedent as the
Biden administration has given a previous loan of $1.1 billion to keep the Diablo Canyon nuclear plant in California running. In 2025, Vogtle Unit 2 reactor in Waynesboro, Georgia, was the first commercial US reactor to make use of
high-assay low-enriched uranium fuel (fuel enriched to 5%+ . On May 23, 2025, President Trump issued four
executive orders to promote the rapid expansion of nuclear power in the United States. One aimed at reinvigorating the nuclear energy and industrial base and focused on the nuclear fuel cycle, workforce, and supply chain. A second reforming nuclear reactor testing at the Department of Energy, and directed the Secretary of Energy to streamline and accelerate the construction of test reactors. The third aimed at reforming the Nuclear Regulatory Commission and called for the wholesale revision of NRC regulations on reactor construction and operation. And the fourth directed the U.S. Army to begin operating a nuclear reactor at a domestic military base by September 30, 2028. In October 2025, the U.S. Army announced plans under its Janus Program to deploy commercially operated nuclear microreactors at selected military installations, building on lessons from
Project Pele.
Reopening Microsoft announced in September 2024 a deal with
Constellation Energy to reopen the long-dormant
Three Mile Island Nuclear Power Plant, securing 100% of its electricity output for the next 20 years. If approved, this would be the first-ever recommissioning of a nuclear plant in U.S. history. The plan faces rigorous regulatory hurdles, requiring extensive reviews from the U.S. Nuclear Regulatory Commission (NRC) before the plant can return to operation. Once fully operational, the revived facility is expected to generate 835 megawatts of electricity. The estimated $1.6 billion cost for reopening and modernizing the plant hinges on tax incentives for nuclear energy included in the 2022
Inflation Reduction Act. ==Nuclear power plants==