Nuclear power in Japan

Prior to the earthquake and tsunami of March 2011, Japan had generated 30% of its electrical power from nuclear reactors and planned to increase that share to 40%. Nuclear energy was a national strategic priority in Japan. As of May 2018, there are 42 operable reactors in Japan. Of these, 8 reactors in 5 power plants are operating.

Though all of Japan’s nuclear reactors successfully withstood shaking from the 2011 Tohoku earthquake, flooding from the ensuing tsunami caused the failure of cooling systems at the Fukushima I Nuclear Power Plant on March 11. Japan’s first-ever nuclear emergency was declared, and 140,000 residents within 20 km (12 mi) of the plant were evacuated. A comprehensive assessment by international experts on the health risks associated with the Fukushima I nuclear power plant disaster concluded in 2013 that, for the general population inside and outside Japan, the predicted risks were low and no observable increases in cancer rates above baseline rates were anticipated. All Japan’s nuclear plants were closed, or their operations suspended for safety inspections. The last of Japan’s fifty reactors (Tomari-3) went offline for maintenance on May 5, 2012, leaving Japan completely without nuclear-produced electrical power for the first time since 1970.

Problems in stabilizing the triple reactor meltdowns at Fukushima I nuclear plant hardened attitudes to nuclear power. In June 2011, more than 80 percent of Japanese said they were anti-nuclear and distrusted government information on radiation. By October 2011, there had been electricity shortages, but Japan survived the summer without the extensive blackouts that some had predicted. An energy white paper, approved by the Japanese Cabinet in October 2011, stated that “public confidence in safety of nuclear power was greatly damaged” by the Fukushima disaster, and called for a reduction in the nation’s reliance on nuclear power.

Despite protests, on 1 July 2012 unit 3 of the Ōi Nuclear Power Plant was restarted. In September 2013 Ōi units 3 and 4 went offline, making Japan again completely without nuclear-produced electrical power. On August 11, 2015, the Sendai Nuclear Power Plant was brought back online, followed by two units (3 and 4) of the Takahama Nuclear Power Plant on January 29, 2016. However Unit 4 was shut down three days after restart due to an internal failure and Unit 3 in March 2016 after district court in Shiga prefecture issued an injunction to halt operation of Takahama Nuclear Power Plant. Though 43 of Japan’s pre-2011 total of 54 plants remain idled, the Ministry of Economy, Trade and Industry said in 2017 that if the country is to meet its obligations under the Paris climate accord, then nuclear energy needs to make up between 20-22% of the nation’s portfolio mix. 21 restart applications are now pending with an estimated 12 units to come back in service by 2025 and 18 by 2030.

History

Early years
In 1954, Japan budgeted 230 million yen for nuclear energy, marking the beginning of the program. The Atomic Energy Basic Law limited activities to only peaceful purposes. The first nuclear reactor in Japan was built by the UK’s GEC and was commissioned in 1966. In the 1970s, the first light water reactors were built in cooperation with American companies. These plants were bought from U.S. vendors such as General Electric and Westinghouse with contractual work done by Japanese companies, who would later get a license themselves to build similar plant designs. Developments in nuclear power since that time have seen contributions from Japanese companies and research institutes on the same level as the other big users of nuclear power. Between the early 1970s and today, the Japanese government promoted the siting of nuclear power plants through a variety of policy instruments involving soft social control and financial incentives. By offering large subsidies and public works projects to rural communities and by using educational trips, junkets for local government officials, and OpEds written as news by pro-nuclear supporters, the central government won over the support of depopulating, hard-on-their-luck coastal towns and villages.

Later years
Japan’s nuclear industry was not hit as hard by the effects of the Three Mile Island accident (TMI) or the Chernobyl disaster as some other countries. Construction of new plants continued to be strong through the 1980s, 1990s, and up to the present day. While many new plants had been proposed, all were subsequently canceled or never brought past initial planning. Cancelled plant orders include:

The Hōhoku Nuclear Power Plant at Hōhoku, Yamaguchi—1994
The Kushima Nuclear Power Plant at Kushima, Miyazaki—1997
The Ashihama Nuclear Power Plant at Ashihama, Mie—2000 (the first Project at the site in the 1970s was completed at Hamaoka as Unit 1&2)
The Maki Nuclear Power Plant at Maki, Niigata (Kambara)—Canceled in 2003
The Suzu Nuclear Power Plant at Suzu, Ishikawa—2003
However, starting in the mid-1990s there were several nuclear related accidents and cover-ups in Japan that eroded public perception of the industry, resulting in protests and resistance to new plants. These accidents included the Tokaimura nuclear accident, the Mihama steam explosion, cover-ups after an accident at the Monju reactor, among others, more recently the Chūetsu offshore earthquake aftermath. While exact details may be in dispute, it is clear that the safety culture in Japan’s nuclear industry has come under greater scrutiny.

2000s
On April 18, 2007, Japan and the United States signed the United States-Japan Joint Nuclear Energy Action Plan, aimed at putting in place a framework for the joint research and development of nuclear energy technology. Each country will conduct research into fast reactor technology, fuel cycle technology, advanced computer simulation and modeling, small and medium reactors, safeguards and physical protection; and nuclear waste management. In March 2008, Tokyo Electric Power Company announced that the start of operation of four new nuclear power reactors would be postponed by one year due to the incorporation of new earthquake resistance assessments. Units 7 and 8 of the Fukushima Daiichi plant would now enter commercial operation in October 2014 and October 2015, respectively. Unit 1 of the Higashidori plant is now scheduled to begin operating in December 2015, while unit 2 will start up in 2018 at the earliest. As of September 2008, Japanese ministries and agencies were seeking an increase in the 2009 budget by 6%. The total requested comes to 491.4 billion Japanese yen (4.6 billion USD), and the focuses of research are development of the fast breeder reactor cycle, next-generation light water reactors, the Iter project, and seismic safety.

Fukushima disaster and aftermath
A 2011 independent investigation in Japan has “revealed a long history of nuclear power companies conspiring with governments to manipulate public opinion in favour of nuclear energy”. One nuclear company “even stacked public meetings with its own employees who posed as ordinary citizens to speak in support of nuclear power plants”. An energy white paper, approved by the Japanese Cabinet in October 2011, says “public confidence in safety of nuclear power was greatly damaged” by the Fukushima disaster, and calls for a reduction in the nation’s reliance on nuclear power. It also omits a section on nuclear power expansion that was in last year’s policy review. Nuclear Safety Commission Chairman Haruki Madarame told a parliamentary inquiry in February 2012 that “Japan’s atomic safety rules are inferior to global standards and left the country unprepared for the Fukushima nuclear disaster last March”. There were flaws in, and lax enforcement of, the safety rules governing Japanese nuclear power companies, and this included insufficient protection against tsunamis.

On 6 May 2011, Prime Minister Naoto Kan ordered the Hamaoka Nuclear Power Plant be shut down as an earthquake of magnitude 8.0 or higher is likely to hit the area within the next thirty years.

As of 27 March 2012, Japan had only one out of 54 nuclear reactors operating; the Tomari-3, after the Kashiwazaki-Kariwa 6 was shut down. The Tomari-3 was shut down for maintenance on 5 May, leaving Japan with no nuclear-derived electricity for the first time since 1970, when the country’s then only two reactors was taken offline five days for maintenance. On 15 June 2012, approval was given to restart Ōi Units 3 and 4 which could take six weeks to bring them to full operation. On 1 July 2012 unit 3 of the Ōi Nuclear Power Plant was restarted. This reactor can provide 1,180 MW of electricity. On 21 July 2012 unit 4 was restarted, also 1,180 MW. The reactor was shut down again on 14 September 2013, again leaving Japan with no operating power reactors.

Government figures in the 2014 Annual Report on Energy show that Japan depended on imported fossil fuels for 88% of its electricity in fiscal year 2013, compared with 62% in fiscal 2010. Without significant nuclear power, the country was self-sufficient for just 6% of its energy demand in 2012, compared with 20% in 2010. The additional fuel costs to compensate for its nuclear reactors being idled was ¥3.6 trillion. In parallel, domestic energy users have seen a 19.4% increase in their energy bills between 2010 and 2013, while industrial users have seen their costs rise 28.4% over the same period.

In 2018 the Japanese government revised its energy plan to update the 2030 target for nuclear energy to 20%-22% of power generation by restarting reactors, compared to LNG 27%, coal 25%, renewables 23% and oil 3%. This would reduce Japan’s carbon dioxide emissions by 26% compared to 2013, and increase self-sufficiency to about 24% by 2030, compared to 8% in 2016.

Investigations on the Fukushima disaster
The National Diet of Japan Fukushima Nuclear Accident Independent Investigation Commission (NAIIC) is the first independent investigation commission by the National Diet in the 66-year history of Japan’s constitutional government. NAICC was established on December 8, 2011 with the mission to investigate the direct and indirect causes of the Fukushima nuclear accident. NAICC submitted its inquiry report to both houses on July 5, 2012.

The 10-member commission compiled its report based on more than 1,167 interviews and 900 hours of hearings. It was a six-month independent investigation, the first of its kind with wide-ranging subpoena powers in Japan’s constitutional history, which held public hearings with former Prime Minister Naoto Kan and Tokyo Electric Power Co’s former president Masataka Shimizu, who gave conflicting accounts of the disaster response. The commission chairman, Kiyoshi Kurokawa, declared with respect to the Fukushima nuclear incident: “It was a profoundly man-made disaster — that could and should have been foreseen and prevented.” He added that the “fundamental causes” of the disaster were rooted in “the ingrained conventions of Japanese culture.” The report outlines errors and willful negligence at the plant before the 2011 Tōhoku earthquake and tsunami on March 11, 2011 and a flawed response in the hours, days and weeks that followed. It also offers recommendations and encourages Japan’s parliament to “thoroughly debate and deliberate” the suggestions.

Post-Fukushima nuclear policy
Japan’s new energy plan, approved by the Liberal Democratic Party cabinet in April 2014, calls nuclear power “the country’s most important power source”. Reversing a decision by the previous Democratic Party, the government will re-open nuclear plants, aiming for “a realistic and balanced energy structure”. In May 2014 the Fukui District Court blocked the restart of the Oi reactors. In April 2015 courts blocked the restarting of two reactors at Takahama Nuclear Power Plant but permitted the restart of two reactors at Sendai Nuclear Power Plant. The government hopes that nuclear power will produce 20% of Japan’s electricity by 2030.

As of June 2015, approval was being sought from the new Nuclear Regulatory Agency for 24 units to restart, of the 54 pre-Fukushima units. The units also have to be approved by the local prefecture authorities before restarting.

In July 2015 fuel loading was completed at the Sendai-1 nuclear plant, it restarted August 11, 2015 and was followed by unit 2 on November 1, 2015. Japan’s Nuclear Regulatory Authority approved the restart of Ikata-3 which took place on April 19, 2016, this reactor is the fifth to receive approval to restart. The Takahama Nuclear Power Plant unit 4 restarted in May 2017 and unit 3 in June 2017.

In November 2016 Japan signed a nuclear cooperation agreement with India. Japanese nuclear plant builders saw this as potential lifeline given that domestic orders had ended following the Fukushima disaster, and India is proposing to build about 20 new reactors over the next decade. However, there is Japanese domestic opposition to the agreement, as India has not agreed to the Treaty on the Non-Proliferation of Nuclear Weapons.

In 2014, following the failure of the prototype Monju sodium-cooled fast reactor, Japan agreed to cooperate in developing the French ASTRID demonstration sodium-cooled fast breeder reactor. As of 2016, France was seeking the full involvement of Japan in the ASTRID development.

Seismicity
Japan has had a long history of earthquakes and seismic activity, and destructive earthquakes, often resulting in tsunamis, occur several times a century. Due to this, concern has been expressed about the particular risks of constructing and operating nuclear power plants in Japan. Amory Lovins has said: “An earthquake-and-tsunami zone crowded with 127 million people is an un-wise place for 54 reactors”. To date, the most serious seismic-related accident has been the Fukushima Daiichi nuclear disaster, following the 2011 Tōhoku earthquake and tsunami.

Professor Katsuhiko Ishibashi, one of the seismologists who have taken an active interest in the topic, coined the term genpatsu-shinsai (原発震災), from the Japanese words for “nuclear power” and “quake disaster” to express the potential worst-case catastrophe that could ensue. Dr Kiyoo Mogi, former chair of the Japanese Coordinating Committee for Earthquake Prediction, has expressed similar concerns, stating in 2004 that the issue ‘is a critical problem which can bring a catastrophe to Japan through a man-made disaster’.

Warnings from Kunihiko Shimazaki, a professor of seismology at the University of Tokyo, were also ignored. In 2004, as a member of an influential cabinet office committee on offshore earthquakes, Mr. Shimazaki “warned that Fukushima’s coast was vulnerable to tsunamis more than twice as tall as the forecasts of as much as five meters put forth by regulators and Tokyo Electric”. Minutes of the meeting on Feb. 19, 2004, show that the government bureaucrats running the committee moved quickly to exclude his views from the committee’s final report. He said the committee did not want to force Tokyo Electric to make expensive upgrades at the plant.

Hidekatsu Yoshii, a member of the House of Representatives for Japanese Communist Party and an anti-nuclear campaigner, warned in March and October 2006 about the possibility of the severe damage that might be caused by a tsunami or earthquake. During a parliamentary committee in May 2010 he made similar claims, warning that the cooling systems of a Japanese nuclear plant could be destroyed by a landslide or earthquake. In response Yoshinobu Terasaka, head of the Nuclear and Industrial Safety Agency, replied that the plants were so well designed that “such a situation is practically impossible”. Following damage at the Kashiwazaki-Kariwa Nuclear Power Plant due to the 2007 Chūetsu offshore earthquake, Kiyoo Mogi called for the immediate closure of the Hamaoka Nuclear Power Plant, which was knowingly built close to the centre of the expected Tōkai earthquake. Katsuhiko Ishibashi previously claimed, in 2004, that Hamaoka was “considered to be the most dangerous nuclear power plant in Japan”.

The International Atomic Energy Agency (IAEA) has also expressed concern. At a meeting of the G8’s Nuclear Safety and Security Group, held in Tokyo in 2008, an IAEA expert warned that a strong earthquake with a magnitude above 7.0 could pose a ‘serious problem’ for Japan’s nuclear power stations. Before Fukushima, “14 lawsuits charging that risks had been ignored or hidden were filed in Japan, revealing a disturbing pattern in which operators underestimated or hid seismic dangers to avoid costly upgrades and keep operating. But all the lawsuits were unsuccessful”. Underscoring the risks facing Japan, a 2012 research institute investigation has “determined there is a 70% chance of a magnitude-7 earthquake striking the Tokyo metropolitan area within the next four years, and 98% over 30 years”. The March 2011 earthquake was a magnitude-9.

Design standards
Between 2005 and 2007, three Japanese nuclear power plants were shaken by earthquakes that far exceeded the maximum peak ground acceleration used in their design. The tsunami that followed the 2011 Tōhoku earthquake, inundating the Fukushima I Nuclear Power Plant, was more than twice the design height, while the ground acceleration also slightly exceeded the design parameters.

In 2006 a Japanese government subcommittee was charged with revising the national guidelines on the earthquake-resistance of nuclear power plants, which had last been partially revised in 2001, resulting in the publication of a new seismic guide — the 2006 Regulatory Guide for Reviewing Seismic Design of Nuclear Power Reactor Facilities. The subcommittee membership included Professor Ishibashi, however his proposal that the standards for surveying active faults should be reviewed was rejected and he resigned at the final meeting, claiming that the review process was ‘unscientific’ and the outcome rigged to suit the interests of the Japan Electric Association, which had 11 of its committee members on the 19-member government subcommittee. Ishibashi has subsequently claimed that, although the new guide brought in the most far-reaching changes since 1978, it was ‘seriously flawed’ because it underestimated the design basis earthquake ground motion. He has also claimed that the enforcement system is ‘a shambles’ and questioned the independence of the Nuclear Safety Commission after a senior Nuclear and Industrial Safety Agency official appeared to rule out a new review of the NSC’s seismic design guide in 2007.

Following publication of the new 2006 Seismic Guide, the Nuclear and Industrial Safety Agency, at the request of the Nuclear Safety Commission, required the design of all existing nuclear power plants to be re-evaluated.

Geological surveys
The standard of geological survey work in Japan is another area causing concern. In 2008 Taku Komatsubara, a geologist at the National Institute of Advanced Industrial Science and Technology alleged that the presence of active faults was deliberately ignored when surveys of potential new power plant sites were undertaken, a view supported by a former topographer. Takashi Nakata, a seismologist from the Hiroshima Institute of Technology has made similar allegations, and suggest that conflicts of interest between the Japanese nuclear industry and the regulators contribute to the problem.

A 2011 Natural Resources Defense Council report that evaluated the seismic hazard to reactors worldwide, as determined by the Global Seismic Hazard Assessment Program data, placed 35 of Japan’s reactors in the group of 48 reactors worldwide in very high and high seismic hazard areas.

Nuclear power plants
Fugen, Fukushima I, Fukushima II, Genkai, Hamaoka, Higashidōri, Ikata, Kashiwazaki-Kariwa, Maki, Mihama, Monju, Namie-Odaka, Ōi, Ōma, Onagawa, Sendai, Shika, Shimane, Takahama, Tōkai, Tomari, Tsuruga

Nuclear accidents
In terms of consequences of radioactivity releases and core damage the Fukushima I nuclear accidents in 2011 were the worst experienced by the Japanese nuclear industry, in addition to ranking among the worst civilian nuclear accidents, though no fatalities were caused and no serious exposure of radiation to workers occurred. The Tokaimura reprocessing plant fire in 1999 had 2 worker deaths, one more exposed to radiation levels above legal limits and over 660 others received detectable radiation doses but within permissible levels, well below the threshold to affect human health. The Mihama Nuclear Power Plant experienced a steam explosion in one of the turbine buildings in 2004 where five workers were killed and six injured.

Other accidents
Other accidents of note include:

1981: Almost 300 workers were exposed to excessive levels of radiation after a fuel rod ruptured during repairs at the Tsuruga Nuclear Power Plant.
December 1995: The fast breeder Monju Nuclear Power Plant sodium leak. State-run operator Donen was found to have concealed videotape footage that showed extensive damage to the reactor.
March 1997: The Tokaimura nuclear reprocessing plant fire and explosion, northeast of Tokyo. 37 workers were exposed to low doses of radiation. Donen later acknowledged it had initially suppressed information about the fire.
1999: A fuel loading system malfunctioned at a nuclear plant in the Fukui Prefecture and set off an uncontrolled nuclear reaction and explosion.
September 1999: The criticality accident at the Tokai fuel fabrication facility. Hundreds of people were exposed to radiation, three workers received doses above legal limits of whom two later died.
2000: Three TEPCO executives were forced to quit after the company in 1989 ordered an employee to edit out footage showing cracks in nuclear plant steam pipes in video being submitted to regulators.
August 2002: a widespread falsification scandal starting in that led to the shut down of all Tokyo Electric Power Company’s 17 nuclear reactors; Tokyo Electric’s officials had falsified inspection records and attempted to hide cracks in reactor vessel shrouds in 13 of its 17 units.
2002: Two workers were exposed to a small amount of radiation and suffered minor burns during a fire at Onagawa Nuclear Power Station in northern Japan.
2006: A small amount of radioactive steam was released at the Fukushima Dai-ichi plant and it escaped the compound.
16 July 2007: A severe earthquake (measuring 6.6 on the moment magnitude scale) hit the region where Tokyo Electric’s Kashiwazaki-Kariwa Nuclear Power Plant is located and radioactive water spilled into the Sea of Japan; as of March 2009, all of the reactors remain shut down for damage verification and repairs; the plant with seven units was the largest single nuclear power station in the world.

Nuclear waste disposal
Japanese policy is to reprocess its spent nuclear fuel. Originally spent fuel was reprocessed under contract in England and France, but then the Rokkasho Reprocessing Plant was built, with operations originally expected to commence in 2007. The policy to use recovered plutonium as mixed oxide (MOX) reactor fuel was questioned on economic grounds, and in 2004 it was revealed the Ministry of Economy, Trade and Industry had covered up a 1994 report indicating reprocessing spent fuel would cost four times as much as burying it.

In 2000, a Specified Radioactive Waste Final Disposal Act called for creation of a new organization to manage high level radioactive waste, and later that year the Nuclear Waste Management Organization of Japan (NUMO) was established under the jurisdiction of the Ministry of Economy, Trade and Industry. NUMO is responsible for selecting a permanent deep geological repository site, construction, operation and closure of the facility for waste emplacement by 2040. Site selection began in 2002 and application information was sent to 3,239 municipalities, but by 2006, no local government had volunteered to host the facility. Kōchi Prefecture showed interest in 2007, but its mayor resigned due to local opposition. In December 2013 the government decided to identify suitable candidate areas before approaching municipalities.

In 2014 the head of the Science Council of Japan’s expert panel has said Japan’s seismic conditions makes it difficult to predict ground conditions over the necessary 100,000 years, so it will be impossible to convince the public of the safety of deep geological disposal.

The cost of MOX fuel had roughly quadrupled from 1999 to 2017, creating doubts about the economics of nuclear fuel reprocessing. In 2018 the Japanese Atomic Energy Commission updated plutonium guidelines to try to reduce plutonium stockpiles, stipulating that the Rokkasho Reprocessing Plant should only produce the amount of plutonium required for MOX fuel for Japan’s nuclear power plants.

Nuclear regulatory bodies in Japan
Nuclear Regulation Authority – A nuclear safety agency under the environment ministry, created on September 19, 2012. It replaced the Nuclear and Industrial Safety Agency and the Nuclear Safety Commission.
Japanese Atomic Energy Commission (AEC) 原子力委員会 – Now operating as a commission of inquiry to the Japanese cabinet, this organization coordinates the entire nation’s plans in the area of nuclear energy.
Nuclear Safety Commission 原子力安全委員会 – The former Japanese regulatory body for the nuclear industry.
Nuclear and Industrial Safety Agency (NISA) 原子力安全・保安院 – A former agency that performed regulatory activities and was formed on January 6, 2001, after a reorganization of governmental agencies.

Nuclear power companies
Electric utilities running nuclear plants
Japan is divided into a number of regions that each get electric service from their respective regional provider, all utilities hold a monopoly and are strictly regulated by the Japanese government. For more background information, see Energy in Japan. All regional utilities in Japan currently operate nuclear plants with the exception of the Okinawa Electric Power Company. They are also all members of the Federation of Electric Power Companies (FEPCO) industry organization. The companies are listed below.

Regional electric providers
Hokkaidō Electric Power Company (HEPCO) – 北海道電力
Tōhoku Electric Power Company (Tōhoku Electric) – 東北電力
Tokyo Electric Power Company (TEPCO) – 東京電力
Chūbu Electric Power Company (CHUDEN) – 中部電力
Hokuriku Electric Power Company (RIKUDEN) – 北陸電力
Kansai Electric Power Company (KEPCO) – 関西電力
Chūgoku Electric Power Company (Energia) – 中国電力
Shikoku Electric Power Company (YONDEN) – 四国電力
Kyūshū Electric Power Company (Kyūshū Electric) – 九州電力

Other companies with a stake in nuclear power
Japan Atomic Energy Agency (JAEA) – 日本原子力研究開発機構
Japan Atomic Power Company (JPAC) – 日本原子力発電
JAPC, jointly owned by several Japan’s major electric utilities, was created by special provisions from the Japanese government to be the first company in Japan to run a nuclear plant. Today it still operates two separate sites.
Electric Power Development Company (EDPC, J-POWER) – 電源開発
This company was created by a special law after the end of World War II, it operates a number of coal fired, hydroelectric, and wind power plants, the Ohma nuclear plant that is under construction will mark its entrance to the industry upon completion.

Nuclear vendors and fuel cycle companies
Nuclear vendors provide fuel in its fabricated form, ready to be loaded in the reactor, nuclear services, and/or manage construction of new nuclear plants. The following is an incomplete list of companies based in Japan that provide such services. The companies listed here provide fuel or services for commercial light water plants, and in addition to this, JAEA has a small MOX fuel fabrication plant. Japan operates a robust nuclear fuel cycle.

Nuclear Fuel Industries (NFI) – 原子燃料工業 NFI operates nuclear fuel fabrication plants in both Kumatori, Osaka and in Tōkai, Ibaraki, fabricating 284 and 200 (respectively) metric tons Uranium per year. The Tōkai site produces BWR, HTR, and ATR fuel while the Kumatori site produces only PWR fuel.
Japan Nuclear Fuel Limited (JNFL, JNF) – 日本原燃 The shareholders of JNFL are the Japanese utilities. JNFL plans to open a full scale enrichment facility in Rokkasho, Aomori with a capacity of 1.5 million SWU/yr along with a MOX fuel fabrication facility. JNFL has also operated a nuclear fuel fabrication facility called Kurihama Nuclear Fuel Plant in Yokosuka, Kanagawa as GNF, producing BWR fuel.
Mitsubishi Heavy Industries / Atmea – 三菱重工業 原子力事業本部 MHI operates a fuel manufacturing plant in Tōkai, Ibaraki, and contributes many heavy industry components to construction of new nuclear plants, and has recently designed its own APWR plant type, fuel fabrication has been completely PWR fuel, though MHI sells components to BWRs as well. It was selected by the Japanese government to develop fast breeder reactor technology and formed Mitsubishi FBR Systems. MHI has also announced an alliance with Areva to form a new company called Atmea.
Global Nuclear Fuel (GNF). GNF was formed as a joint venture with GE Nuclear Energy (GENE), Hitachi, and Toshiba on January 1, 2000. GENE has since strengthened its relationship with Hitachi, forming a global nuclear alliance:
GE Hitachi Nuclear Energy (GEH) – 日立GEニュークリア・エナジー This company was formed July 1, 2007. Its next generation reactor, the ESBWR has made significant progress with US regulators. Its predecessor design, the ABWR, has been approved by the UK regulator for construction in the UK, following successful completion of the generic design assessment (GDA) process in 2017.
Toshiba – 東芝 電力システム社 原子力事業部 Toshiba has maintained a large nuclear business focused mostly on Boiling Water Reactors. With the purchase of the American Westinghouse by 5.4 Billion USD in 2006, which is focused mainly on Pressurized Water Reactor technology, it increased the size of its nuclear business about twofold. On 29 March 2017 Toshiba placed Westinghouse in Chapter 11 bankruptcy because of $9 billion of losses from its nuclear reactor construction projects, mostly the construction of four AP1000 reactors in the U.S. Toshiba still has a profitable maintenance and nuclear fuel supply business in Japan, and is a significant contractor in the Fukushima clean-up.
Recyclable-Fuel Storage Co. A company formed by TEPCO and Japan Atomic Power Co. to build a spent nuclear fuel storage facility in Aomori Prefecture.
There have been discussions between Hitachi, Mitsubishi Heavy Industries and Toshiba about possibly consolidating some of their nuclear activities.

Anti-nuclear movement
Long one of the world’s most committed promoters of civilian nuclear power, Japan’s nuclear industry was not hit as hard by the effects of the 1979 Three Mile Island accident (USA) or the 1986 Chernobyl disaster (USSR) as some other countries. Construction of new plants continued to be strong through the 1980s and into the 1990s. However, starting in the mid-1990s there were several nuclear related accidents and cover-ups in Japan that eroded public perception of the industry, resulting in protests and resistance to new plants. These accidents included the Tokaimura nuclear accident, the Mihama steam explosion, cover-ups after accidents at the Monju reactor, and more recently the Kashiwazaki-Kariwa Nuclear Power Plant was completely shut down for 21 months following an earthquake in 2007. While exact details may be in dispute, it is clear that the safety culture in Japan’s nuclear industry has come under greater scrutiny.

Source from Wikipedia