State Atomic Energy Corporation Rosatom
Native name
Государственная корпорация по атомной энергии «Росатом»
TypeState-owned
IndustryNuclear power
Wind power
Hydrogen fuel
PredecessorFederal Agency on Atomic Energy
Founded1 December 2007 (2007-12-01)[1]
FounderVladimir Putin by signed law[2]
Headquarters,
Area served
Worldwide
Key people
Alexey Likhachev(General Director)
ProductsNuclear reactors
Nuclear fuel
Uranium mining
Uranium enrichment
Nuclear decommissioning
Nuclear medicine
Wind power
Hydrogen fuel
Additive manufacturing
Composites
Revenue₽1,207.4 billion[3] (2020)
Total assets₽4,722.4 billion[3] (2020)
OwnerRussian government
Number of employees
276,100[3] (2020)
SubsidiariesSee organization
Websiterosatom.ru/en/

Rosatom (Russian: Росатом, IPA: [rɐsˈatəm]), also known as Rosatom State Nuclear Energy Corporation, the State Atomic Energy Corporation Rosatom, or Rosatom State Corporation, is a Russian state corporation headquartered in Moscow that specializes in nuclear energy, nuclear non-energy goods and high-tech products.[4] Established in 2007, the nonprofit organization comprises more than 350 enterprises, including scientific research organizations, a nuclear weapons complex, and the world's only nuclear icebreaker fleet.[5]

The organization is the largest electricity generating company in Russia, producing 215.746 TWh of electricity, 20.28% of the country's total electricity production. The corporation ranks first in overseas NPP construction, responsible for 76% of global nuclear technology exports: 35 nuclear power plant units, at different stages of development, in 12 countries, as of December 2020.[6] Rosatom also manufactures equipment, produces isotopes for nuclear medicine, carries out research, and conducts material studies. It also produces supercomputers and software as well as different nuclear and non-nuclear products. Rosatom plans to further develop renewable energy and wind power. Two nuclear power plants are being built in Russia at Kursk-2 NPP with plans announced for 2 more units at Kola NPP.[7] Rosatom has a 38% world market share and in 2019 led in global uranium enrichment services (36%) and covers 16% of the global nuclear fuel market.[8][9][10]

In 2020, Rosatom approved an updated strategy with the intent to branch into 100 new business areas, including nuclear medicine, composites, wind energy, hydrogen, waste management, additive technology, and production of hydrogen.[3]

The state corporation is authorized on behalf of the state to fulfill Russia's international obligations in the field of the use of nuclear energy and of non-proliferation of nuclear materials.[4] Rosatom is also involved with large-scale projects such as ITER and FAIR.

As of February 2021, the total portfolio orders of Rosatom reached $250 billion.[11][12] According to the 2020 corporate report, its 10-year foreign order portfolio stood at $138.3 billion, while revenue reached $7.5 billion. The 10-year order portfolio for new products stood at ₽1,602.1 billion while revenue reached ₽261.1 billion.[13][14]

History

Origins and establishment

Several Soviet and Russian government entities with different tasks are among the Rosatom predecessors.[4] On 26 June 1953, the Council of Ministers transformed the First Main Directorate in charge of nuclear weapons program into the Ministry of Medium Machine Building (MinSredMash). The ministry was entrusted with the development of the civic nuclear power program. In 1989, Minsredmash and the Ministry of Atomic Energy merged to form the Ministry of Nuclear Engineering and Industry of the USSR.[15][16]

The Ministry for Atomic Energy of the Russian Federation [(Russian: Министерство по атомной энергии Российской Федерации, also known as Minatom (Russian: Минaтом)] was established as a successor to the Russian part of the Ministry of Nuclear Engineering and Industry of the USSR on 29 January 1992, after the dissolution of the Soviet Union. The newly created ministry received about 80% of the enterprises of the union department, including 9 nuclear power plants with 28 power units. Under this name, the ministry existed until 9 March 2004, when it was transformed into the Federal Agency on Atomic Energy.[15][16]

On 1 December 2007, Russian President Vladimir Putin signed a law adopted by the Federal Assembly under which the Federal Atomic Energy Agency was to be abolished, and its powers and assets were to be transferred to the newly created "State Atomic Energy Corporation Rosatom." On 12 December of the same year, the agency transformed into a state corporation.[15][17] In 2015, the company's revenue amounted to 126 billion rubles.[18]

Involvement in international markets

Between 2000 and 2015, Rosatom "was the supplier in around half of all international agreements on nuclear power plant construction, reactor, and fuel supply, decommissioning or waste".[19] Russia has various diplomatic ties with different countries via nuclear energy diplomacy.[20] Some form of formalized agreement exists with 54 countries as of 2023, although some plans for Russian-built nuclear power plants were canceled after the Russian invasion of Ukraine.[19]

Wind power investments

In 2017, Rosatom decided to invest in wind power, believing that rapid cost reductions in the renewable industry will become a competitive threat to nuclear power, and started to build wind turbine. Rosatom was also concerned that nuclear export opportunities were becoming exhausted. In October, Rosatom was reported to be considering postponing commissioning new nuclear plants in Russia due to excess generation capacity and that new nuclear electricity prices are higher than for existing plant. The Russian government is considering reducing support for new nuclear under its support contracts, called Dogovor Postavki Moshnosti (DPM), which guarantees developers a return on investment through increased payments from consumers for 20 years.[21][22][23]

2017 ruthenium plume controversy

Ruthenium, a byproduct of uranium-235 fission, is used by nuclear monitoring sites as an indicator of a nuclear accident.[24] In October 2017, a plume of ruthenium-106 was detected by multiple laboratories throughout Europe. Rosatom denied that there had been a leak or accident at its nuclear sites and suggested that the plume was caused by a satellite burning upon reentry.[25] A 2019 study ruled out the satellite hypothesis. By analyzing air sample data from multiple monitoring sites, the scientists determined that the most likely cause of the plume was a fire or explosion while attempting to process ruthenium into cerium-144.[25] Rosatom continues to deny that there was a leak or explosion.

Other events (2017–2020)

On 28 June 2017, The Financial Times criticized Rosatom for lack of transparency regarding an alleged expansionist agenda through its role as a "Kremlin-controlled company".[26] On 20 March 2018, this criticism was underlined by the Bellona Foundation, who focused on the scarce data available on Rosatom's progress in Sudan.[27]

On 20 August 2020, Rosatom marked the 75th anniversary of the Russian nuclear industry. As part of the celebration, Rosatom launched its rebranding campaign “United Rosatom,” which made subsidiaries in the nuclear industry utilize the Rosatom's Möbius strip logo. In 2020, Rosatom set a goal of tripling its revenue to ₽4 trillion by 2030, 40% of which is set to come from new lines of business, with primarily focus on sustainable tech.[28][6][29]

2022 invasion of Ukraine

Nations supporting Ukraine following the 2022 Russian invasion sanctioned key Russian industries, including Rosatom and its subsidiaries. The Foreign, Commonwealth and Development Office of the United Kingdom announced direct sanctions against Rosatom and its executives.[30] The United States Department of the Treasury Office of Foreign Assets Control sanctioned UMATEX Joint-Stock Company and its subsidiaries in Russia and the Czech Republic pursuant to Executive Order 14024, as part of a drive against Russia's suppliers of carbon fibers.[31]

Within the next two days after Russian military forces occupied Ukraine's Chernobyl Nuclear Power Plant on 24 February 2022, Rosatom employees had gained unauthorized access to the plant, threatened the Ukrainian personnel, and demanded the plant's manuals, procedures and other documentation.[32]

Since 12 March 2022,[33] once Russian military forces occupied Ukraine's Zaporizhzhia Nuclear Power Plant, Rosatom employees have gained access and set a base there without permission of the plant's owner Energoatom. Rosatom engineers have demanded documentation and manuals on the plant's operation. Rosatom spokeswoman said that its employees are present at Zaporizhzhia Nuclear Power Plant to ensure the safety of the plant and are not involved in its management or security.[34]

On 29 September 2022, the International Atomic Energy Agency was told by a Ukrainian ambassador that Rosatom had sent more officials to Zaporizhzhia Nuclear Power Plant to enforce the change in ownership from Ukraine to Russia and to give the plant employees two weeks to apply for work with Rosatom. Allowing Russia to claim ownership of Zaporizhzhia would represent the biggest nuclear theft in history.[35]

Organization

As of early 2021, Rosatom included 356 of various organizational and legal forms. Some belong to the enterprises of the nuclear power complex, which comprises organizations of nuclear energy, nuclear engineering, and the nuclear fuel cycle, such as enterprises for the exploration and production of natural uranium, conversion and enrichment of uranium, production of nuclear fuel, electricity and equipment, development of new technologies for the nuclear fuel and gas centrifuge platform.[6] Others belong to the growing number of new businesses outside of nuclear power, including wind energy, composite materials, additive technologies, and nuclear medicine, among others. The civilian assets of the Russian nuclear industry are concentrated within Rosatom's holding company Atomenergoprom, which unites 204 enterprises as of December 2020.[13][36]

The Rosatom companies are integrated into multiple divisions:[13][37]

Mining division

The holding company of the Rosatom mining division is JSC Atomredmetzoloto, which consolidates Russian uranium mining assets. Key daughter companies include JSC Khiagda and JSC Dalur. Uranium One is a separate global mining company that operates directly under Rosatom with a diverse portfolio of assets in Kazakhstan, United States, and Tanzania.

Fuel division

Work on a fuel cassette of the nuclear power reactor at the Novosibirsk Chemical Concentrates Plant, a TVEL subsidiary

The managing company of the Rosatom fuel division is JSC TVEL, which is a leading organization on the global nuclear fuel cycle front-end market and the only supplier of nuclear fuel for Russian NPPs and the nuclear-powered icebreaker fleet.

Key daughter companies include Bochvar National Research Institute for Inorganic Materials, Siberian Chemical Combine, and Chepetskiy Mechanical Plant.

The division's tasks include the fabrication of nuclear fuel, conversion and enrichment of uranium, and the production of gas centrifuges.

Uranium enrichment is carried out at four TVEL Fuel Company plants, including Angarsk Electrochemical Plant in Angarsk, Irkutsk Oblast, Zelenogorsk Electrochemical Plant in Zelenogorsk, Krasnoyarsk Krai, Ural Electrochemical Plant in Novouralsk, Sverdlovsk Oblast, and the Siberian Chemical Plant in Seversk, Tomsk Oblast.[38] Uranium is enriched using an advanced gas centrifuge technology to separate uranium isotopes. Depleted uranium hexafluoride is converted to an oxide form at the W-ECP unit of Zelenogorsk Electrochemical Plant.[39][40]

Nuclear fuel is produced at Rosatom's Machine-building plant (JSC MSZ) and Novosibirsk Chemical Concentrates Plant (JSC NCCP). The plants produce UO2-based (enriched fresh and reprocessed uranium) nuclear fuel for all models of Russian power and research reactors, as well as for many foreign power and research reactor models and for Russian ship-based power installations. The development of accident-tolerant fuel for VVER and PWR reactors has now entered the stage of testing.[41]

MOX fuel for fast sodium reactors is produced at the Mining and Chemical Combine, while uranium-plutonium mixed fuel will be produced at the Siberian Chemical Plant, which is currently under construction. A uranium-plutonium fuel REMIX (regenerated mixture) is being tested for VVER reactors; its commercial production is expected to take place at the Mining and Chemical Combine.

SNF reprocessing is carried out at the Mayak Production Association at the RT-1 plant. The plant is currently processing the spent nuclear fuel (of various compositions) from power reactors (BN-350, VVER-440, BN-600, RBMK-1000, VVER-1000; BN-MOX), from the research reactors of Russian and foreign scientific centers, and from the reactors of submarine and surface naval fleet transport power plants.[37]

Mechanical engineering division

The managing company is JSC Atomenergomash. It is one of Russia's largest groups of mechanical engineering enterprises offering a full range of solutions for the design, manufacture, and supply of equipment for the nuclear power industry. The division comprises more than 10 production sites, including production enterprises, engineering centers, and research organizations in Russia, Ukraine, the Czech Republic, and Hungary.

According to the group's own data, 14% of nuclear power plants in the world and 40% of thermal power stations in the CIS and the Baltic states use the holding equipment. In addition, the division is the largest producer of equipment for the VVER reactor and the world's only producer of the fast-neutron reactor (BN reactor). Its enterprises are also responsible for the design and manufacturing of reactors for SMR nuclear power plants, both onshore and offshore, as well as nuclear icebreakers. Key companies include OKB Gidropress, OKBM Afrikantov, JSC Machine-Building Factory of Podolsk, and AEM-technology.

Engineering division

The managing company is JSC ASE EC, which has extensive capabilities for managing the construction of complex engineering facilities. The main business areas of the division include the design and construction of large NPPs in Russia and abroad, and developing digital technologies for managing complex engineering facilities based on the Multi-D platform. Key companies include JSC Atomenergoproekt, and JSC ATOMPROEKT.

Power engineering division

The managing company is JSC Rosenergoatom. It is the only NPP operator in Russia and a key player in the Russian electricity market. Its main business areas include power and heat generation at NPPs and acting as the operator of nuclear facilities (nuclear power plants), radiation sources, and facilities storing nuclear materials and radioactive substances. Key companies include all Russian NPPs, JSC AtomEnergoRemont, JSC AtomEnergoSbyt, and TITAN-2 construction holding.

Back-end division

The managing company is JSC Federal Center for Nuclear and Radiation Safety. It is dedicated to a centralized system for management of spent nuclear fuel and radioactive waste, as well as decommissioning of hazardous nuclear and radiological facilities. Key companies include FSUE Mining and Chemical Combine , FSUE Radon, NO RWM.

R&D division

The managing company is JSC Science and Innovations. Key companies include Russian Scientific Center (RSC) – A.I. Leipunskiy IPPE, NII NPO Luch, and the Research Institute of Atomic Reactors.

Northern Sea Route

The development of the Northern Sea Route has become a Rosatom priority after the company was appointed its infrastructure operator in late 2018. Rosatom seeks to organize ship navigation within the NSR, develop the infrastructure of seaports, including energy, create a navigation safety system, as well as navigational and hydrographic support. In addition, several Rosatom entities are involved in the development of international transit sea freight traffic along the Northern Sea Transit Corridor. Key companies include FSUE Atomflot, Directorate of the Northern Sea Route, Rusatom Cargo.

Wind power division

In 2017, Rosatom decided to invest in wind turbine manufacturing, believing that rapid cost reductions in the renewable industry will become a competitive threat to nuclear power. Russia had recently offered subsidies for domestically built renewable technology.[21] The managing company is JSC NovaWind. This Rosatom's division concentrates its efforts in advanced areas of wind energy generation technology. Key companies include WindSGC, WindSGC-2, and Atompowerindustry Trade.

Nuclear medicine division

The managing company is JSC Rusatom Healthcare. It has been historically developed at various enterprises of the Russian nuclear industry. In 2017, Rosatom established the division to bring together assets and expertise in healthcare. The nuclear medicine division is in charge of nuclear medicine, manufacturing and distribution of radioisotope products and radiation sterilisation equipment, as well as creation of integrated turnkey solutions for medicine. Key companies include JSC Isotope and NIITFA. In February 2022, Rusatom Healthcare acquired 25,001% of shares of Medscan group, the rest of shares still being hold by its major shareholder, Yevgeny Tugolukov.[42]

Advanced materials and technologies division

The managing company is JSC UMATEX, which is engaged in production of carbon fiber and fiber-based items, as well as R&D and engineering support to its partners. Key companies include JSC Khimprominzhiniring, R&D centre, and LLC ALABUGA-FIBRE.

Digital products division

The managing company is the Digitalization Unit of Rosatom, which is engaged in solving tasks in three main areas:

The participation in the digitalization of Russia, as Rosatom is the center of competences of the Federal Project Digital Technologies within the National Program Digital Economy, the development of digital products for nuclear power and beyond and the internal digitalization of the Russian nuclear industry, making it independent from foreign technologies in critical areas.

Infrastructure solutions division

Arctic climatic complex presented at the "Army-2022" exhibition

The managing company is JSC Rusatom Infrastructure Solutions. The company develops, builds, modernizes, maintains water supply, water purification and water treatment facilities for energy, petrochemical, food, and other industries.

Additive manufacturing division

The managing company is Rusatom Additive Technologies. It connects together the scientific and production companies of Rosatom in order to develop the area of additive production in Russia. It controls design and production of 3D-printers, additive powders, complete sets, software, and 3D-printing services.

Energy storage systems division

The managing company is LLC RENERA, which is engaged in the development of lithium-ion traction batteries for electric transport and fixed systems for energy accumulation, as well as products for emergency and uninterruptible power supply and storage systems for renewable energy.

Process control systems and electrical engineering division

The managing company is JSC Rusatom Automated Control Systems. It builds comprehensive solutions for automation of production processes, manufactures and supplies electrical equipment, designs and constructs electricity supply facilities.

Environmental solutions division

The managing company is FSUE Federal Environmental Operator.

Operations

Nuclear power plants

The management company Rosenergoatom operates all of Russia's nuclear power plants and represents the electric power division of the state corporation Rosatom. As of April 2021, 11 nuclear power plants (38 power units) operated in Russia with a total capacity of 30.5 GW, producing about 20.28% of all electricity produced in Russia.[43]

In operation

As a result of reforms and reassignments in the period from 2012 to 2014, Rosatom's engineering activities were concentrated within the management company Atomenergoproekt-Atomstroyexport (NIAEP-ASE), based in Nizhny Novgorod. Earlier, Atomstroyexport was engaged in foreign construction, and a number of independent engineering institutes with the name Atomenergoproekt were engaged in the design and construction of facilities in Russia: Moscow, St. Petersburg, and Nizhny Novgorod. Since October 2014 on the basis of NIAEP-ASE, Rosatom forms a unified engineering division, not including design company on nuclear power facilities and technologies Atomproekt. According to Kommersant, such a strategy is aimed at eliminating internal competition, deliberately created earlier. This measure can be effective from the economic point of view in view of a large number of domestic and foreign orders.[44]

Floating nuclear power plants

Under construction

Leningrad Nuclear Power Plant II under construction on 20 July 2010

Rosatom is one of the world leaders in the number of simultaneously constructed power units. As of late 2021, Rosatom is building two new power units in Russia at Kursk Nuclear Power Plant II, and there are 35 power units at different stages of implementation abroad.[45] Construction of a nuclear power plant in Kaliningrad started on 25 February 2010, but was suspended for the project to be redesigned.[46][47][48][49][50]

There are also plans to build two more units at Leningrad NPP, two units at Smolensk NPP, two more units at Novovoronezh NPP and two more units at Kursk NPP.[51][52][53][54] In mid-June 2021, Rosatom announced that two 600 MW VVER reactors will be added to Kola NPP with the first coming online in 2034.[55] In early June 2021, construction of the BREST-OD-300 reactor started. It will be the world's first experimental demonstration power unit featuring a lead-cooled fast neutron reactor.[56]

Plant name Location Unit number Reactor type Power (MW) Construction start Expected completion date
Baltic NNP Kaliningrad, Kaliningrad Oblast 1 VVER-1200 1,170 2021 Project suspended
Kursk NPP II Makarovka, Kursk Oblast 1 VVER-1300/510 1,255 2018 2025
2 VVER-1300/510 1,255 2019 2026-7
As of 15 April 2021[57]

Abroad

Rosatom has the world's largest portfolio of foreign NNP construction projects with a market share of 74%.[13] At the time of Russia's invasion of Ukraine, Rosatom had 73 projects in 29 countries.[19]

37% of nuclear reactors under construction worldwide being built by Rosatom itself, usually the OKB Gidropress' VVER type. Rosatom received $66.5 billion of foreign orders in 2012, including $28.9 billion for nuclear plant construction, $24.7 billion for uranium products and $12.9 billion for nuclear fuel exports and associated activities. In 2020, Rosatom received $138.3 billion of foreign orders, including $89.1 billion for nuclear plant construction, $13.3 billion for uranium products and $35.8 billion for nuclear fuel exports and associated activities.[3] Nuclear power plants in China, India, and Iran, were either designed and built by Rosatom or with the corporation's participation.

In December 2013, Rosatom signed a €6.4 billion contract with Fennovoima in Finland of the single-unit Hanhikivi NPP using OKB Gidropress' VVER-1200 pressurized water reactor in the town of Pyhäjoki, with construction planned to start after 2021,[58] but the contract was cancelled in May 2022 by Finland for Russian invasion of Ukraine.[59] In December 2014, Rosatom and the MVM Group of Hungary signed an agreement for the construction of new station units of the Paks NPP with construction planned to start in 2022.[60] Rosatom also started construction of Turkey's Akkuyu NPP on 3 April 2018.[61]

Failed bids includes the cancellation of Units 3 and 4 of Khmelnytskyi NPP in Ukraine.[62][63]

International NPP projects in the Russian nuclear industry
Plant name Country Location Unit number Status Type Power (MW) Construction start Completion date
Akkuyu Turkey Akkuyu, Mersin 1 Under construction VVER-1200/491 1,200 April 2018[61] 2023 (planned)[64]
2 April 2020[65] 2024 (planned)
3 March 2021[66] 2025 (planned)
4 2022 [67] 2026 (planned)[68]
Belarusian Belarus Astravets, Grodno Region 1 Operational VVER-1200/491 1,200 6 November 2013 10 June 2021 [69]
2 13 May 2023
Bushehr Iran Bushehr 1[70] Operational VVER-1000/446 1,000 1 May 1975; 1995 23 September 2013
2[71] Under construction VVER-1000 September 2019[72] August 2025[73]
El Dabaa Egypt El Dabaa, North Coast 1 Under construction VVER-1200 1,200 2022 -
2 -
3
4 planned
Hanhikivi Finland Pyhäjoki, Northern Ostrobothnia 1 Cancelled in 2022[74] VVER-1200 1,200 - -
Kudankulam India Koodankulam, Tamil Nadu 1 Operational VVER-1000/412 917 31 March 2002 22 October 2013[75]
2 August 2016 31 March 2017
3 Under construction 29 June 2017[76] -
4 October 2017[77]
5 30 June 2021 -
6
Paks Hungary Paks, Tolna County 5 Approved[78] VVER-1200 1,200 2022 -
6
Rooppur Bangladesh Rooppur, Ishwardi 1 Under construction VVER-1200 1,200 November 2017 2023 (planned)
2 July 2018 2024 (planned)
Tianwan China Lianyungang, Jiangsu 1 Operational VVER-1000/428 990 20 October 1999 17 May 2007
2 20 October 2000 16 August 2007
3 VVER-1000/428М 1,050 27 December 2012 15 February 2018[79]
4 27 September 2013 22 December 2018[80]
7 Approved[81] VVER-1200 1,150 May 2021 -
8 2022 -
Xudabao China Xingcheng, Huludao, Liaoning 3 Approved VVER-1200 1,150 2021 -
4 2022 -
Mochovce Slovakia Mochovce, Nitra Region 1 Operational VVER 440/213 436 November 1982 29 October 1998
2 11 April 2000
3 November 2008 1 February 2023
4 Under construction November 2008 2025 (planned)[82]

Small reactors and floating nuclear plants

Rosatom has practical experience operating small reactors in the Far North, including the four EGP-6 reactor-equipped power units of Bilibino NPP.[83] In 2019, the floating nuclear power plant Akademik Lomonosov, equipped with two KLT-40 reactors, was connected to the grid in the Russian town of Pevek. Akademic Lomonosov has an electric power capacity of 70 MW and a thermal power capacity of 50 Gcal/h. Rosatom's new floating nuclear power plant projects will be equipped with RITM-200 reactors, which are used in Project 22220 icebreakers. Rosatom also has ground-based small nuclear power plant projects equipped with RITM-200 reactors. In November 2020, Rosatom announced plans to place a land-based RITM-200 SMR in the isolated town of Ust-Kuyga, Yakutia.[84] In early August 2021, the Russian nuclear regulator granted a license to Rusatom Overseas JSC, allowing the company to build nuclear installations at nuclear power plants within the framework of the project in Yakutia.[85]

Rosatom offers land, water, and submarine versions of the small modular reactor “Shelf” for consumers in the ≤ 10 MW power range. The company also developed the SVBR-100 lead-bismuth fast reactor for consumers in the ≤ 100 MW power range, though the latter project is currently frozen.[86]

Research reactors

According to the Research Reactor Database (RRDB), maintained by the IAEA, Russia has 54 research reactors, which are largely based at Rosatom enterprises and institutes.[87] Most of Russia's research reactors were built in the USSR, in the early stages of the development of the nuclear energy sector. Today, Rosatom's largest research reactor project is the Multipurpose Fast Neutron Research Reactor (MBIR), which is currently under construction.[88] Based in Dimitrovgrad, Ulyanovsk oblast, the reactor will be the world leader among high-flux research facilities.[89] Its unique physical characteristics are best suited for material science experiments, such as testing innovative fuel and new coolants.[89]

Rosatom provides support to its foreign partners in the creation of nuclear science and technology centres, including scientific laboratories and research reactors. The company is currently building the first centre of such type in Bolivia, which will be commissioned in 2024. Another contract to build similar facilities in Zambia was signed in 2018.[90]

Two-component structure of nuclear power

In 2018, Rosatom adopted a long-term strategy through year 2100, for the development of nuclear energy in accordance with the following goals:[91]

  • To form the basis for the generation of carbon-free energy and be competitive in other forms of generation of electric and thermal energy;
  • To promote the highest possible high-tech export of nuclear power plants, research reactors, nuclear fuel, equipment, and services in the nuclear technology market;
  • To ensure the conservation of organic uranium reserves for non-energy use;
  • To solve environmental problems and fulfill Russia's international obligations of carbon dioxide emissions reduction.

In pursuit of achieving these goals, Rosatom is transitioning to a two-component nuclear power structure that operates in a closed-loop heavy metal (uranium, plutonium, and minor actinides) fuel cycle that simultaneously involves thermal and fast reactors. VVER reactors, with their improved adjustments, were selected as thermal reactors and BN (sodium-cooled) and BREST/BR (lead-cooled) reactors were selected as fast reactors. In such a system, spent nuclear fuel is considered a valuable raw material instead of nuclear waste, as it could be further used for fresh fuel fabrication. Rosatom is currently at the first stage of transitioning to a two-component structure.[91]

Icebreaker fleet

Since 2008, the structure of Rosatom includes the Russian nuclear icebreaker fleet, which is the largest in the world with five nuclear-powered icebreakers , a container ship, and four service vessels. Its tasks include navigation on the routes of the Northern Sea Route and rescue operations in ice.[92] Operation and maintenance of the fleet is carried out by FSUE Atomflot, also known as Rosatomflot, a company based in Murmansk.[93]

Corporate governance

Supervisory Board

Russian President Vladimir Putin with the head of Rosatom, Sergey Kiriyenko, in January 2014

The highest executive body of Rosatom is the supervisory board, consisting of nine people, including the chairman. The board is headed since 2005 by chairman Sergey Kiriyenko. Other Board members are:[94]

Management Board

Strategies, policies and objectives of Rosatom are established by its management board, consisting of fourteen people, including the General Director. The board is headed since 2016 by General Director Alexey Likhachev.[95]

  • Alexey Likhachev - General Director of Rosatom
  • Ivan Kamenskikh - First Deputy Director General for Nuclear Weapons
  • Kirill Komarov - First Deputy Director General for Corporate Development and International Business
  • Alexander Lokshin - First Deputy Director General for Operations Management
  • Nikolay Solomon - First Deputy Director General for Corporate Functions and CFO
  • Konstantin Denisov - Deputy Director General for Security
  • Sergey Novikov - State Secretary – Deputy Director General for Execution of State Powers and Budgeting
  • Nikolay Spassky - Deputy Director General for International Relations
  • Oleg Kryukov - Director for Public Policy on Radioactive Waste, Spent Nuclear Fuel and Nuclear Decommissioning
  • Andrey Nikipelov - CEO of Atomenergomash
  • Sergey Obozov - Director for Rosatom Production System, Member of Rosenergoatom's Board of Directors
  • Yuri Olenin - Deputy Director General for Innovation Management
  • Andrei Petrov - Director General of Rosenergoatom
  • Yuri Yakovlev - Deputy Director General for the State Safety Policy in the Defense Uses of Atomic Energy

General Director

The sole executive body of Rosatom is the General Director, who manages the day-to-day operations. Sergey Kiriyenko, who headed the Russian nuclear industry in 2005, became general director of Rosatom since its creation until he got replaced on 5 October 2016, by Alexey Likhachev, former Deputy Minister for Economic Development.[96]

  • Sergey Kiriyenko (1 December 2007 – 5 October 2016)
  • Alexey Likhachev (5 October 2016–present)

Public Council

The Public Council of Rosatom works with civic organizations to utilize nuclear power, protect the environment, and ensure nuclear and radiation safety. Objectives of the council are:

  • Raise public awareness of Rosatom's activities
  • Involve civic organizations in making policies on nuclear power
  • Negotiate nuclear issues with the general public
  • Communicate efficiently with stakeholders

Council members are:[97]

  • Alexey Likhachev - General Director of Rosatom, Chairman of the Public Council
  • Alexander Lokshin - First Deputy Director General for Operations Management
  • Sergey Baranovsky - President of the Russian Green Cross, Chairman of the Russian Ecological Congress, Deputy Chairman of the Public Council
  • Rudolf Aleksakhin - Leading Ecologist of ROSATOM's Proriv (Breakthrough) Project
  • Rafael Arutyunyan - First Deputy Director of the Institute for Safe Development of Nuclear Energy of Russian Academy of Sciences
  • Valery Bochkarev - Head of Radiation Safety Division, Federal Centre for Nuclear and Radiation Safety
  • Natalia Davydova - Director of "Environmental Projects Consulting Institute"
  • Mark Glinsky - First Deputy CEO of the Gidrospetsgeologia Geological Survey
  • Vladimir Grachev - Advisor to the ROSATOM CEO, Chairman of the Public Council with the Federal Nuclear, Industrial, and Environmental Regulatory Authority of Russia (Rostekhnadzor)
  • Alexander Harichev - Head of Local Communities Relations Unit, Advisor to the ROSATOM CEO (Secretary of the Public Council)
  • Viktor Ivanov - Deputy Director of the Russian Academy of Medicine Research Centre for Medical Radiology, Chairman of the Russian Federation Commission on Radiation Protection
  • Valery Menschikov - Member of the council with the Russian Environmental Policy Centre
  • Oleg Muratov - Executive Secretary of North-West Section of Russian Nuclear Society, Member of the Academy of Ecology, Safety of Human and Nature
  • Alexander Nikitin - Chairman of the Bellona Foundation (Saint Petersburg office)
  • Vladimir Ognev - Chairman of the Interregional Public Movement of Nuclear Industry and Power Veterans
  • Natalia Shandala - Deputy General Director of Burnazyan Federal Medical and Biophysical Centre
  • Yuriy Tebin - Vice-president of Chamber for Trade and Commerce of Moscow Oblast
  • Albert Vasiliev - Chief Scientific Officer at the Dollezhal Research and Design Institute for Power Engineering
  • Valeriy Vassilyev - Мember of the Citizens’ Assembly of Krasnodarsk Area, Public Council of the Russian Federation
  • Andrey Vazhenin - Chief Doctor of Chelyabinsk Regional Clinical Oncologic Treatment Center, Сorresponding member of Russian Academy of Medical Science
  • Yan Vlasov - Chairman of the Public Council for Protection of Patients’ Rights at Roszdravandzor, Co-chairman of All-Russia Union of Patients’ Public Organizations
  • Sergey Zhavoronkin - Secretary of the Public Council for Nuclear Safety in Murmansk Oblast
  • Elena Yakovleva - Chief Editor of the International Magazine Safety of Nuclear Technologies and Environment, Head of the Internet-project of Russian Nuclear Society
  • Sergey Yudintsev - Corresponding Member of the Russian Academy of Sciences, Head of the Laboratory of Radiogeology and Radiogeoecology, Institute of Geology of Ore Deposits, Petrography, Mineralogy, and Geochemistry, Russian Academy of Sciences[98]

See also

References

  1. "Putin ratifies law on formation of Rosatom". Archived from the original on 18 February 2011.
  2. "World Nuclear Association - World Nuclear News".
  3. 1 2 3 4 5 "ГОСУДАРСТВЕННАЯ КОРПОРАЦИЯ ПО АТОМНОЙ ЭНЕРГИИ «РОСАТОМ» ИТОГИ ДЕЯТЕЛЬНОСТИ 2020" (PDF) (in Russian).
  4. 1 2 3 Szulecki, Kacper; Overland, Indra (April 2023). "Russian nuclear energy diplomacy and its implications for energy security in the context of the war in Ukraine". Nature Energy. 8 (4): 413–421. doi:10.1038/s41560-023-01228-5. hdl:11250/3106595. ISSN 2058-7546.
  5. Manaranche, Martin (4 May 2020). "Russia Signs Contract to Build World's Largest Nuclear-Powered Icebreaker". Naval News. Retrieved 23 December 2021.
  6. 1 2 3 Astrasheuskaya, Nastassia (20 June 2021). "Russia's Rosatom seeks to tap global transition to low-carbon fuels". Financial Times. Retrieved 23 December 2021.
  7. "Kola II construction to start in 2028 : New Nuclear - World Nuclear News". world-nuclear-news.org. Retrieved 23 December 2021.
  8. "About us". rosatom.ru. Retrieved 1 February 2018.
  9. Patel, Sonal (10 March 2022). "Pressure on U.S. Nuclear Power Could Mount if Sanctions Imposed on Russian Uranium". POWER Magazine. Retrieved 7 July 2022.
  10. Nouvelle, L'Usine (13 April 2022). "Pourquoi le nucléaire russe n'est pas visé par les sanctions occidentales". L'Usine Nouvelle (in French).
  11. "Rosatom's 10-year foreign order portfolio at about $140 bln". Interfax.com. Retrieved 23 December 2021.
  12. "Rosatom claims its foreign business will double over the next five years". Bellona.org. 13 May 2019. Retrieved 23 December 2021.
  13. 1 2 3 4 "STATE ATOMIC ENERGY CORPORATION ROSATOM. PERFORMANCE IN 2019" (PDF).
  14. "Портфель зарубежных заказов "Росатома" на 10 лет превысил $100 млрд". Interfax.ru (in Russian). 11 December 2014. Retrieved 8 February 2018.
  15. 1 2 3 Росатом Archived 2014-12-19 at the Wayback Machine // РБК Инновации.
  16. 1 2 Отечественный локомотив экономического прогресса // Деловая газета. — Декабрь 2010. — С. 66—67.
  17. "Putin ratifies law on formation of Rosatom". www.world-nuclear-news.org. Retrieved 26 February 2018.
  18. "Госкорпорация "Росатом"". www.rusprofile.ru (in Russian). Retrieved 27 October 2023.
  19. 1 2 3 Szulecki, Kacper; Overland, Indra (2023). "Russian nuclear energy diplomacy and its implications for energy security in the context of the war in Ukraine". Nature Energy. 8 (4): 413–421. Bibcode:2023NatEn...8..413S. doi:10.1038/s41560-023-01228-5. hdl:11250/3106595. ISSN 2058-7546. S2CID 257239333.
  20. Szulecki, Kacper; Overland, Indra (April 2023). "Russian nuclear energy diplomacy and its implications for energy security in the context of the war in Ukraine". Nature Energy. 8 (4): 413–421. Bibcode:2023NatEn...8..413S. doi:10.1038/s41560-023-01228-5. hdl:11250/3106595. ISSN 2058-7546. S2CID 257239333.
  21. 1 2 Foy, Henry (28 June 2017). "Rosatom powers through nuclear industry woes". Financial Times. Retrieved 2 July 2017.
  22. Cottee, Matthew (2 August 2017). "China's nuclear export ambitions run into friction". Financial Times. Retrieved 6 August 2017.
  23. "Rosatom considers delaying reactor commissioning". Nuclear Engineering International. 30 October 2017. Retrieved 6 November 2017.
  24. Fore, Meredith. "A Strange Radioactive Cloud Likely Came From Russia". Wired. ISSN 1059-1028. Retrieved 14 July 2023.
  25. 1 2 Howes, Laura (29 July 2019). "What caused a plume of radioactive ruthenium in Europe in 2017?". Chemical & Engineering News. Retrieved 14 July 2023.
  26. Foy, Henry (28 June 2017). "Rosatom powers through nuclear industry woes". Financial Times. Retrieved 4 September 2018.
  27. "Rosatom reportedly offering unlikely floating nuclear power deal to Sudan". Bellona.org. 20 March 2018. Retrieved 4 September 2018.
  28. "Rosatom chief outlines commercial vision". World Nuclear News. 8 March 2017. Retrieved 10 March 2017.
  29. "Rosatom marks 75th anniversary of Russian nuclear industry : Corporate - World Nuclear News". www.world-nuclear-news.org. Retrieved 21 August 2020.
  30. "New sanctions ban every item Russia is using on the battlefield". GOV.UK. Retrieved 24 February 2023.
  31. "Targeting Key Sectors, Evasion Efforts, and Military Supplies, Treasury Expands and Intensifies Sanctions Against Russia". U.S. Department of the Treasury. Retrieved 24 February 2023.
  32. "Inside Chernobyl: We stole Russian fuel to prevent catastrophe". BBC News. 9 April 2022. Retrieved 27 August 2022.
  33. "Rosatom participates in raiding of Zaporizhia NPP – Energoatom head".
  34. Parkinson, Drew Hinshaw and Joe (17 June 2022). "Russians Hunt for Spies at Ukrainian Nuclear Power Plant". Wall Street Journal. ISSN 0099-9660. Retrieved 7 July 2022.
  35. "Russia Forcing Ukraine Workers Into Rosatom After Nuclear Theft". Bloomberg.com. 30 September 2022. Retrieved 2 October 2022.
  36. "All enterprises". www.rosatom.ru. Retrieved 21 February 2018.
  37. 1 2 "Radiochemical production". po-mayak.ru. Federal State Unitary Enterprise "Mayak Production Association". Retrieved 23 December 2021.
  38. "Enriched Uranium Product". TVEL. Retrieved 23 December 2021.
  39. "Fuel and enrichment". rosatom.ru. Retrieved 15 February 2018.
  40. "Обогащение урана". rosatom.ru. Retrieved 15 February 2018.
  41. "Rosatom enters next stage of ATF development : Uranium & Fuel - World Nuclear News". world-nuclear-news.org. Retrieved 23 December 2021.
  42. "Росатом купил 25% в компании Медскан Евгения Туголукова" (in Russian). Forbes (Россия). 16 February 2022.
  43. "PRIS - Country Details".
  44. "Единый атомный подрядчик". Газета "Коммерсантъ". 14 October 2014. p. 11. Retrieved 15 February 2018.
  45. "PRIS - Country Details". pris.iaea.org. Retrieved 23 December 2021.
  46. ""Росатом" начал строительство Балтийской АЭС". РИА Новости (in Russian). 25 February 2010. Retrieved 4 September 2018.
  47. "Балтийская АЭС: "примерно восемь реакторов мощностью 40 МВт каждый" - ?! - Bellona.ru". Bellona.ru (in Russian). 13 June 2013. Retrieved 4 September 2018.
  48. "Генподрядчик подтвердил приостановку проекта Балтийской АЭС мощностью 2ГВт". Interfax.ru (in Russian). 13 June 2013. Retrieved 4 September 2018.
  49. "Строящиеся АЭС". rosatom.ru. Retrieved 15 February 2018.
  50. "Атомный эксперт #1-2/2014". Scribd. Retrieved 15 February 2018.
  51. "Two more new units for Leningrad NPP - Nuclear Engineering International". www.neimagazine.com. Retrieved 23 December 2021.
  52. "Four New NPP Units Will be Built in Russia". rosatom-europe.com. Retrieved 23 December 2021.
  53. "На Нововоронежской АЭС в середине 2030-ых годов построят ещё два новых энергоблока". Атомная энергия 2.0 (in Russian). 5 April 2021. Retrieved 23 December 2021.
  54. "КУРСКАЯ АЭС - 2". ROSENERGOATOM. Archived from the original on 22 October 2020. Retrieved 23 December 2021.
  55. "Kola II construction to start in 2028 : New Nuclear - World Nuclear News". world-nuclear-news.org. Retrieved 23 December 2021.
  56. "Rosatom State Atomiс Energy Corporation ROSATOM global leader in nuclear technologies nuclear energy". rosatom.ru. Retrieved 23 December 2021.
  57. "Строящиеся АЭС". www.rosatom.ru. Archived from the original on 30 August 2018. Retrieved 20 February 2018.
  58. "Fennovoima Hanhikivi 1 Project". Fennovoima. Retrieved 27 December 2021.
  59. Kauranen, Anne (2 May 2022). "Finnish group ditches Russian-built nuclear plant plan". Reuters. Retrieved 25 August 2022.
  60. "В Росатоме заявили, что пандемия не повлияла на график строительства АЭС "Аккую"". TASS (in Russian). 10 March 2021.
  61. 1 2 "PRIS - Reactor Details (AKKUYU-1)". pris.iaea.org. Retrieved 28 December 2021.
  62. "Яценюк: Украина достроит АЭС без участия россиян". Росбалт. Retrieved 21 February 2018.
  63. "Атомный эксперт #1-2/2014". Scribd. Retrieved 21 February 2018.
  64. "Construction licence issued for Akkuyu 4 : New Nuclear - World Nuclear News". www.world-nuclear-news.org. Retrieved 28 December 2021.
  65. "PRIS - Reactor Details (AKKUYU-2)". pris.iaea.org. Retrieved 28 December 2021.
  66. "PRIS - Reactor Details". pris.iaea.org. Retrieved 28 December 2021.
  67. "В Росатоме заявили, что пандемия не повлияла на график строительства АЭС "Аккую"". ТАСС (in Russian). Retrieved 28 December 2021.
  68. "Akkuyu construction to be completed by 2026, says project CEO : New Nuclear - World Nuclear News". www.world-nuclear-news.org. Retrieved 10 August 2023.
  69. Ostrovets unit 1 enters commercial operation
  70. "Nuclear Power Reactor Details — BUSHEHR 1". International Atomic Energy Agency. Archived from the original on 26 August 2010. Retrieved 13 August 2010.
  71. "Nuclear Power Reactor Details — BUSHEHR 2". International Atomic Energy Agency. Archived from the original on 4 June 2011. Retrieved 13 August 2010.
  72. "Iran and Russia celebrate start of Bushehr II". World Nuclear News. 12 September 2016. Retrieved 23 January 2017.
  73. "Официальный старт проекта АЭС "Бушер-2" в Иране намечен на 10 сентября". РИА Новости (in Russian). 1 September 2016. Retrieved 21 March 2018.
  74. "Fennovoima pulls the plug on Russian-built nuclear plant". Yle News. 2 May 2022. Retrieved 2 May 2022.
  75. Kudankulam nuclear plant begins power generation. Mumbai Mirror (2013-10-22). Retrieved on 2013-12-06.
  76. "Construction of Kudankulam NPP 2nd stage has commenced". www.rosatom.ru. Retrieved 21 March 2018.
  77. "Construction work for Kudankulam Nuclear Power Project 3,4 units to begin soon: Scientist". The Indian Express. 26 January 2017. Retrieved 12 February 2017.
  78. "Hungary, Russia sign 3 Paks implementation accords". 9 December 2014. Retrieved 27 July 2016.
  79. "China National Nuclear Corporation - Tianwan Unit 4 embraces first fuel loading". Electric Energy Online. Retrieved 29 July 2019.
  80. "Росатом Госкорпорация "Росатом" ядерные технологии атомная энергетика АЭС ядерная медицина". www.rosatom.ru. Retrieved 29 July 2019.
  81. "AtomStroyExport unveils schedule for China projects - World Nuclear News". www.world-nuclear-news.org. Retrieved 29 July 2019.
  82. "MOCHOVCE-4". Power Reactor Information System (PRIS). IAEA. Retrieved 13 January 2020.
  83. "The world's 10 smallest nuclear reactors". Power Technology. 11 December 2013. Retrieved 28 December 2021.
  84. "Rosatom plans ground-based SMR for Yakutia - Nuclear Engineering International". www.neimagazine.com. Retrieved 28 December 2021.
  85. "Rusatom Overseas received a licence for Yakutia NPP - Nuclear Engineering International". www.neimagazine.com. Retrieved 28 December 2021.
  86. "Advances in Small Modular Reactor Technology Developments" (PDF). International Atomic Energy Agency. September 2020.
  87. "RRDB". nucleus.iaea.org. Retrieved 28 December 2021.
  88. "The floor slab of Russia's MBIR research reactor installed - Nuclear Engineering International". www.neimagazine.com. Retrieved 28 December 2021.
  89. 1 2 "Rosatom presents latest projects at European conference on research reactors - Nuclear Engineering International". www.neimagazine.com. Retrieved 28 December 2021.
  90. "Rosatom State Atomiс Energy Corporation ROSATOM global leader in nuclear technologies nuclear energy". www.rosatom.ru. Retrieved 28 December 2021.
  91. 1 2 "План на 100 лет — "Росатом" принял долгосрочную стратегию развития ядерной энергетики" (in Russian). Retrieved 28 December 2021.
  92. Henderson, Isaiah M. (18 July 2019). "Cold Ambition: The New Geopolitical Faultline". The California Review. Retrieved 19 July 2019.
  93. "The Nuclear icebreaker fleet". www.rosatom.ru. Retrieved 21 February 2018.
  94. "Supervisory Board". www.rosatom.ru. Retrieved 14 February 2018.
  95. "Management Board". www.rosatom.ru. Retrieved 21 February 2018.
  96. "Director General". rosatom.ru. Retrieved 14 February 2018.
  97. "Public Council". www.rosatom.ru. Retrieved 1 March 2018.
  98. "Public Council". www.rosatom.ru. Retrieved 26 February 2018.
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