Reactors

Shin Hanul Unit 3 is a nuclear power reactor under construction in South Korea, located at the Shin Hanul site, contributing to the country's robust civilian nuclear energy program. Utilizing the APR1400 design, it represents South Korea's advanced reactor technology for reliable electricity generat

Shin Hanul Unit 4, under construction in South Korea, is part of the Shin Hanul nuclear power complex, supporting the nation's clean energy goals. It features the APR1400 reactor design, a cornerstone of South Korea's modern nuclear fleet for civilian power. Construction continues, and it has not ye

Shin Hanul Unit 5 is planned for the Shin Hanul Nuclear Power Plant site in Uljin, South Korea. This APR1400 reactor, with a net capacity of 1400 MWe, represents part of South Korea's strategy to expand clean energy production. As a planned unit, it has not yet entered construction or operation.

Shin Hanul Unit 6 is also planned for the Shin Hanul Nuclear Power Plant site in Uljin, South Korea. Like Unit 5, it is an APR1400 reactor with a net capacity of 1400 MWe, aimed at supporting South Korea's energy security and carbon reduction goals. It remains in the planning stage with no construct

Shin Kori Unit 6 is an operational nuclear power reactor located at the Shin Kori site in South Korea, playing a key role in the country's civilian energy supply. Built with the APR1400 design, it exemplifies South Korea's commitment to safe and efficient nuclear power generation. It is currently in

Sizewell C Unit 1 is planned for the Sizewell site in Suffolk, England. It represents an important step in the UK's commitment to expanding nuclear power capacity, with a projected output of 1630 MWe net. The project is still in the planning phase, awaiting final approvals and construction start.

Sizewell C Unit 2 is also planned for the Sizewell site in Suffolk, England. This unit will contribute to the UK's low-carbon energy future with a capacity of 1630 MWe net. It remains in the planning stage alongside Unit 1, pending further development milestones.

Located in Dimitrovgrad, Russia, at the Research Institute of Atomic Reactors (RIAR), SM-3 is a 100 MWth tank-in-pool research reactor with one of the world’s highest neutron fluxes. It is a primary global source for specialized isotopes like Cf-252 and Am-243, supporting materials testing and isoto

**Vendor/Designer:** [[vendors/kaeri]]

Smolensk II-1 is planned for the Smolensk Nuclear Power Plant site in western Russia, near Desnogorsk. As a VVER-TOI reactor with a net capacity of 1255 MWe, it is part of Russia's strategy to enhance its civilian nuclear power generation capacity. Currently in the planning stage, no construction or

Smolensk II-2 is planned for the Smolensk Nuclear Power Plant site in western Russia, near Desnogorsk. This VVER-TOI reactor, with a net capacity of 1255 MWe, supports Russia's long-term goals for expanding clean energy production through nuclear power. It remains in the planning phase with no const

**Vendor/Designer:** [[vendors/holtec]]

**Vendor/Designer:** [[vendors/holtec]]

The SMR-300, developed by Holtec International, is planned for deployment in the USA, though specific site details are not yet confirmed. This small modular reactor (SMR) with a capacity of 300 MWe is significant for its potential to provide scalable, low-carbon energy solutions for civilian power n

**Vendor/Designer:** [[vendors/moltex-energy]]

**Vendor/Designer:** [[vendors/moltex-energy]]

**Vendor/Designer:** [[vendors/starcore-nuclear]]

**Vendor/Designer:** [[vendors/akme-engineering]]

Located in Tehran, Iran, the Tehran Research Reactor (TRR) is a 5 MWth pool reactor operated by the Atomic Energy Organization of Iran (AEOI) for civilian purposes. Originally fueled with highly enriched uranium, it was later converted to low-enriched uranium (LEU) and supports neutron activation, i

**Vendor/Designer:** [[vendors/thorcon-international]]

Located in Middletown, Pennsylvania, USA, Three Mile Island Unit 1 is a pressurized water reactor with a net capacity of 835 MWe, historically significant for its long operational history since 1974. Shut down in 2019, a restart is now planned to bring it back online, contributing to clean energy go

Tianwan Unit 7 is located at the Tianwan Nuclear Power Plant in Jiangsu Province, China. This VVER-1200 reactor, with a net capacity of 1200 MWe, is significant for its role in China-Russia collaboration on advanced nuclear technology for civilian power. It is operational, contributing to the nation

Tianwan Unit 8 is based at the Tianwan Nuclear Power Plant in Jiangsu Province, China. Featuring the VVER-1200 design with a net capacity of 1200 MWe, it highlights international cooperation in nuclear energy for sustainable power generation. Currently operational, it supports China's clean energy o

The TR-2 research reactor is located at the Sarayköy Nuclear Research and Training Center in Ankara, Turkey. Operated by TENMAK, it plays a significant role in neutron activation, isotope production, and training for Turkey's nuclear research programs. This 5 MWth pool-type reactor has been operatio

Situated at Idaho National Laboratory in Idaho, USA, the Transient Reactor Test Facility (TREAT) is the only U.S. facility capable of transient testing of nuclear fuels under accident conditions for civilian reactor safety research. After a 26-year shutdown, it restarted operations in 2017, marking

**Vendor/Designer:** [[vendors/transmutex]]

**Vendor/Designer:** [[vendors/deployable-energy]]

**Vendor/Designer:** [[vendors/reploy-power]]

Tricastin 1, an EPR2 reactor, is planned for the Tricastin Nuclear Power Plant in southern France. This 1670 MWe reactor is part of France's efforts to expand its civilian nuclear fleet with modern, efficient designs. As it is still in planning, there is no operational history available.

Located at the RATEN Institute for Nuclear Research in Mioveni-Pitesti, Romania, the TRIGA SSR reactor is a key facility for civilian nuclear research with a thermal power of 14 MWth. It supports critical activities such as fuel testing, materials irradiation, and isotope production. Operational for

TRIGA Mark II is situated at the Atomic Energy Research Establishment in Savar, Dhaka, Bangladesh, under the Bangladesh Atomic Energy Commission. This 3 MWth research reactor facilitates neutron activation analysis and training for civilian purposes. It has been operational for years, supporting the

Located at the Jožef Stefan Institute in Ljubljana, Slovenia, this TRIGA Mark II research reactor operates at 250 kWth. It serves as a long-standing facility for the European Union, supporting research in neutron activation, training, and nuclear physics. Operational since the 1960s, it remains a ke

Situated at the ININ center in Ocoyoacac, Estado de México, Mexico, the TRIGA Mark III is a vital research reactor for the country. It supports scientific advancements through neutron activation analysis, training, and radioisotope production. The reactor has been operational for decades, contributi

The TRR, also known as THOR (Tsing Hua Open-pool Reactor), is a 1 MWth pool-type research reactor at National Tsing Hua University in Hsinchu, Taiwan. It supports civilian research in neutron activation, boron neutron capture therapy (BNCT), and training. The reactor is currently operational, aiding

TRR-1/M1 is located in the Bangkok area of Thailand and is operated by the Office of Atoms for Peace. This 2 MWth pool-type research reactor supports neutron activation analysis, training, and isotope production for civilian applications. It has been operational for decades, contributing to Thailand

**Vendor/Designer:** [[vendors/urenco]]

The UAE Research Reactor, a TRIGA-type facility, is planned for development in the United Arab Emirates as part of its broader civilian nuclear program. It will be operated by FANR and UAE University, focusing on training and research to build nuclear expertise in the region. With a thermal power of

UUJV (IRT-R1000) was located in the Havana area of Cuba and operated by CPHR. This Soviet-supplied pool-type research reactor, used for training and research, was operational from approximately 1968 to 2000. It is now permanently shut down, marking the end of its contribution to civilian nuclear res

Located at the Vogtle Electric Generating Plant in Waynesboro, Georgia, USA, Vogtle Unit 3 is a landmark in modern U.S. nuclear power as one of the first new reactors built in decades. This AP1000 pressurized water reactor, with a net capacity of 1117 MWe, became operational in 2023, contributing si

Also situated at the Vogtle Electric Generating Plant in Waynesboro, Georgia, USA, Vogtle Unit 4 is a companion to Unit 3 and represents a major step forward for U.S. nuclear energy. This AP1000 reactor, with a net capacity of 1117 MWe, entered commercial operation in 2024, bolstering the region's c

**Vendor/Designer:** [[vendors/nuscale]]

**Vendor/Designer:** [[vendors/nuscale---ropower]]

**Vendor/Designer:** [[vendors/nuscale]]

Located in Almaty, Kazakhstan, the WWR-K is the primary research reactor in the country, operated by the Institute of Nuclear Physics (INP). This Russian-designed pool-type reactor, upgraded in 2018, supports isotope production and materials testing. It remains a cornerstone of Kazakhstan's nuclear

The WWR-M reactor is located at the Institute for Nuclear Research in Kyiv, Ukraine, and is a 10 MWth pool-type research facility. It supports civilian scientific efforts in neutron activation, isotope production, and materials research. The reactor remains operational, contributing to Ukraine's nuc

The WWR-SM reactor, located at the Institute of Nuclear Physics in Tashkent (Ulugbek), Uzbekistan, is a 10 MWth pool-type research facility. It is utilized for civilian applications including neutron activation, isotope production, and silicon doping. The reactor remains operational, aiding scientif

Wylfa Newydd Unit 1 is proposed for the Wylfa site on Anglesey, Wales. It is significant for potentially introducing the BWRX-300 design to the UK, with a capacity of 300 MWe net, supporting smaller-scale nuclear solutions. The project is currently in the planning phase with no construction timeline

**Vendor/Designer:** [[vendors/x-energy]]

Planned for deployment at a Dow chemical facility in Seadrift, Texas, USA, the Xe-100 by X-energy is a high-temperature gas-cooled small modular reactor (SMR) with a net capacity of 80 MWe. This project is significant for its focus on industrial energy applications, supporting decarbonization in man

Xudapu Unit 1 is situated at the Xudapu Nuclear Power Plant in Liaoning Province, China. This VVER-1200 reactor, with a net capacity of 1200 MWe, is notable for its contribution to China-Russia nuclear partnerships focused on civilian energy production. It is operational, providing a stable source o

Xudapu Unit 2 is located at the Xudapu Nuclear Power Plant in Liaoning Province, China. As a VVER-1200 reactor with a net capacity of 1200 MWe, it plays a vital role in advancing nuclear technology for civilian power through international collaboration. Currently operational, it supports China's eff

Xudapu Unit 3 is located at the Xudapu Nuclear Power Plant in Liaoning Province, China. This HPR1000 reactor, with a net capacity of 1090 MWe, is significant for showcasing China's domestically developed nuclear technology for civilian use. It is under construction, supporting the region's energy se

Xudapu Unit 4 is based at the Xudapu Nuclear Power Plant in Liaoning Province, China. Featuring the HPR1000 design with a net capacity of 1090 MWe, it underscores China's focus on indigenous nuclear innovation for power generation. Currently under construction, it aims to bolster clean energy supply

**Vendor/Designer:** [[vendors/nano-nuclear-energy]]

Zhangzhou Unit 3 is a planned nuclear power reactor in China, contributing to the nation's ambitious nuclear energy expansion plans. Designed with the HPR1000 reactor type, it underscores China's push for sustainable electricity generation. Currently in the planning stage, it has no operational hist

Zhangzhou Unit 4 is a planned nuclear power reactor located in China, part of the Zhangzhou site development for civilian energy production. It employs the HPR1000 design, aligning with China's strategy to deploy advanced nuclear technology. As it is still in planning, there is no operational histor