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Nuclear power in Switzerland

April 11, 2024

Nuclear power in Switzerland is generated by three nuclear power plants, with a total of four operational reactors (see list below). Nuclear power has contributed a steady fraction of around forty percent to the Swiss electricity production since 1985. In 2022, it produced 23 terawatt-hours (TWh) of electricity, and accounted for 37% of the nation's gross electricity generation of 62 TWh, while 55% was produced by hydroelectric plants and 8% came from conventional thermal power stations and non-hydro renewable energy sources.[1]

class=notpageimage|
Switzerland nuclear power plants (view)
 Active plants
 Closed plants

Switzerland hosts several research reactors, including the CROCUS reactor at the École Polytechnique Fédérale de Lausanne, which has been the country's only remaining research reactor since 2013.

Nuclear waste from power plants was processed mostly overseas until 2006.[2] Storage is done on surface sites as plans are underway to move nuclear waste underground.[2]

In 2011, the federal authorities decided to gradually phase out nuclear power in Switzerland as a consequence of the Fukushima accident in Japan.[3] In late 2013 the operator BKW decided to cease all electrical generation in 2019 in the Mühleberg plant. The structural design of the Mühleberg nuclear power plant closely resembles that of unit 1 of the Fukushima Dai-ichi nuclear power plant, albeit with some differences.[4]

As of 8 December 2014, the National Council has voted to limit the operational life-time of the Beznau Nuclear Power Plant to 60 years, forcing its two reactors to be decommissioned by 2029 and 2031, respectively. A popular initiative calling for nuclear power phase-out by 2029 was rejected by voters in 2016;[5] however, on 1 January 2018 an amendment (article 12a) to the Swiss Nuclear Energy Act came into effect, prohibiting the issuing of new general licences for nuclear power plants.[6] Switzerland plans to phase out its nuclear capacity by 2044 as part of its Energy Strategy 2050.[7]

In 2021, the Swiss Federal Nuclear Safety Inspectorate (ENSI) confirmed that Swiss nuclear plants meet updated earthquake safety standards, ensuring resilience to rare seismic events. Assessments initiated in 2011, later updated in 2015, affirm their safety measures.[8]

According to a February 2023 poll, approximately 49% of the Swiss population supported the ongoing use of nuclear energy, while 38% opposed it.[9]

Non-Proliferation Treaty edit

Switzerland ratified the Non-Proliferation Treaty (NPT) in March 1977, committing to peaceful nuclear energy use and subjecting its nuclear materials to international safeguards under the International Atomic Energy Agency (IAEA). The corresponding Safeguards Agreement (CSA) was ratified in September 1978, followed by the Additional Protocol (AP) in 2005, which introduced further obligations. This legal framework was integrated into Swiss law through the Safeguards Ordinance (SaO) in February 2005, alongside the Nuclear Energy Act (NEA) and the Nuclear Energy Ordinance (NEO).[10]

Facilities under safeguards in Switzerland include nuclear power plants such as Beznau, Gösgen, and Leibstadt, along with the Mühleberg plant, currently undergoing decommissioning. Interim storage facilities for radioactive waste under safeguards are located at Beznau and in Würenlingen. Other safeguarded sites include CERN in Geneva, the research reactor CROCUS in Lausanne, various facilities at the Paul Scherrer Institute in Villigen, and the research reactor PROTEUS, which is also undergoing decommissioning.[11]

Reactors edit

See also: List of nuclear reactors § Switzerland

Power reactors edit

 
The 970-megawatt (MW) Gösgen nuclear power plant

Switzerland has three nuclear power plants with four reactors in operation as of late December, 2019: (Beznau and Gösgen also provide district heating in addition to power production)[12][13]

Plant safety (each unit): Double containment, large dry; 3 lines safety injection, high and low pressure; 3 lines emergency feedwater; part of these ECCS systems in a bunkered building; ability to connect external water sources
In 2015, concerns over reactor pressure vessel quality at Beznau reactors delayed unit 1's restart, while unit 2 resumed operations in December. Operated by Axpo, both units underwent checks and received a CHF 700 million investment for 60-year lifespans. The safety case for unit 1, submitted to the Swiss Federal Nuclear Safety Inspectorate (ENSI) in November 2016, confirmed safety until 2030, with restart approval in March 2018.[14]
Plant safety: Double containment, large dry; 4 lines for high and low pressure safety injection (50% each); 4 lines emergency feedwater (50% each); 2 additional lines emergency feedwater; part of these ECCS systems bunkered; ability to connect external water sources
Safety: Double containment (with additional wetwell), pressure suppression (4000 m3 water pool); 4 lines (50% each) low pressure injection (with 2 lines RHR), 2 diverse lines high pressure injection; 1 additional line with 2 pumps emergency injection (with 1 line RHR); nearly all the ECCS systems bunkered; ability to connect external water sources.

The Beznau reactors are owned by the Axpo Holding, that also control major parts of Leibstadt. Alpiq own 40% of Gösgen and 27.4% of Leibstadt.[12]

Decommissioned and closed reactors edit

In May 2017, Switzerland voted to phase out nuclear power in the country.[15] A timetable for the phase out of nuclear power plants has not been set.[16] The cost of decommissioning and waste management has been estimated at USD24.7 billion.[17]

  • Lucens (1968) (GCHWR) – 6 MWe
The Lucens experimental reactor power plant was opened in 1962.[18] It housed an experimental power reactor, heavy-water moderated and cooled by carbon dioxide. It has been shut down since 1969 after a partial core meltdown. The site has been decontaminated and decommissioned (location: 46°41′34″N 6°49′39″E / 46.692778°N 6.827500°E / 46.692778; 6.827500 (Lucens site)). The meltdown is considered the worst nuclear meltdown in Switzerland's history.[18]
Shut down on 20 December 2019 and being prepared for nuclear decommissioning. The Mühleberg reactor is owned by BKW (Bernische Kraftwerke AG), majority-owned by the canton of Berne. Plant safety: Double containment, pressure suppression (torus, with 2200 m3 water pool); 4 lines low pressure core spray; 4 lines RHR (torus cooling); 2 turbine-driven HP systems; part of the ECCS systems bunkered; ability to connect external water sources.
In a 2023 report from the World Nuclear Association, the BKW is underway with the decommissioning of the Mühleberg BWR plant. The Federal Department of Environment, Transport, Energy, and Communication issued a decommissioning order in September 2020. Costing approximately 800 million Swiss Francs, the process is expected to conclude by 2031, with site relinquishment by 2034. An additional 1.3 billion Swiss Francs are allocated for waste disposal by around 2040. BKW currently holds 930 million Swiss Francs in its decommissioning fund.[14]

Research and teaching reactors edit

 
The CROCUS reactor of the École polytechnique fédérale de Lausanne (EPFL)
  • SAPHIR
The reactors that became known as SAPHIR was a 10–100 kW-range swimming-pool reactor of demonstration brought to Switzerland by the U.S. delegation to the First Conference on the Peaceful Uses of Atomic Energy that took place in Geneva in August 1955. It has been the first reactor ever shown in operation to the public, worldwide. After the conference the reactor was purchased by the Swiss government on behalf of Reaktor AG, a consortium interested in the development of nuclear energy in Switzerland. The reactor was moved to Würenlingen on the location of the future Paul Scherrer Institut and received its name, SAPHIR, on 17 May 1957. (The name of the reactor was inspired by the color of the Cherenkov radiation which was visible when the reactor was in operation.)
SAPHIR remained operational until its permanent shutdown in 1993.[19]
The University of Geneva acquired a 20 W water-moderated and graphite-reflected research reactor fueled by 20%-enriched Uranium from Aerojet General Nucleonics (AGN) in 1958. It was operated mostly as a teaching reactor until 1989, when it was shutdown and decommissioned.
The University of Basel acquired the AGN-211-P reactor presented at the 1958 World Exposition in Brussels, Belgium. It was a 2 kW water-moderated reactor fueled with high-enriched Uranium and operated from 1959 to 2013 as a teaching and experimental reactor, used amongst other things for neutron activation analysis.
The research reactor at the Institute of Physics ceased operations in 2013 and was defueled in 2015. Plans were made to decommission the reactor by 2020.[19]
A small heavy water-cooled and -moderated research reactor, operated 1960 to 1977 at the former Federal Institute for Reactor Research (now Paul Scherrer Institut). There was also, in the context of Cold War, the theoretical idea of producing weapons-grade Plutonium in it, besides its research purpose. It was also the first reactor to be entirely designed and built in Switzerland.
DIORIT was permanently shut down in 1977, and by the conclusion of 2003, all radioactive materials had been cleared from the reactor facility.[19]
  • PROTEUS
PROTEUS was a zero-power research reactor operated from 1968 to 2011 at what is now the Paul Scherrer Institute, Würenlingen. Its peculiarity was that its core was composed of a hollow cavity whose configuration could be changed by filling it with very diverse types of nuclear fuels, including sub-critical assemblies. It was otherwise composed of a graphite reflector and driver containing 5%-enriched Uranium dioxide fuel rods. This flexibility lead it to be used in four major experimental programs exploring varied reactor designs such as gas-cooled fast reactors, pebble-bed reactors, high-conversion light-water reactors and finally configurations employing real spent nuclear fuel from Swiss nuclear power plants.
In April 2013, the Paul Scherrer Institute applied for the decommissioning of its Proteus research reactor, receiving approval from ENSI in 2016.[14]
It is a zero-power (licensed to 100 W max power) LWR used for teaching at the École Polytechnique Fédérale de Lausanne (EPFL). CROCUS is a critical assembly, built in part from the elements of a dismantled subcritical assembly: Cactus. The name of the latter originated for the numerous instrumentation bars that came out of the core. CROCUS is another name in the XXXus series for nuclear installations at EPFL, e.g. the D-T nuclear fusion facility: Lotus. (Location: 46°31′16″N 6°34′13″E / 46.521238°N 6.570361°E / 46.521238; 6.570361 (Crocus reactor)).
The CROCUS reactor at EPFL became the only remaining research reactor in Switzerland. Despite its modest power capacity of 100 W, it has been instrumental in training nuclear engineers and preserving expertise in the field.[19]

Seismicity edit

See also: Geology of the Alps

Extending across the north and south side of the Alps, Switzerland lies at the junction of the Apulian and Eurasian tectonic plates, and there are many active seismic areas under the mountains that show that stresses continue to be released along deep fault lines. The 1356 Basel earthquake is the most significant seismological event to have occurred in Central Europe in recorded history[20] and may have had a Mw magnitude as strong as 7.1.[21]

Between 2002 and 2004 a major study was conducted to assess the seismic risk to Swiss nuclear power plants. The PEGASOS study, which cost around 10 million Swiss Francs (approximately $11 million) and which was conducted by 21 European experts with American involvement,[21] concluded that the earthquake risk in Switzerland is twice as large as had been previously thought.[22]

In 2011, following the nuclear emergencies at Japan's Fukushima I Nuclear Power Plant and other nuclear facilities Swiss Federal Councillor Doris Leuthard announced on 14 March a freeze in the authorisation procedures for three new nuclear power plants (see Politics), and ordered a safety review of the country's existing plants.[23]

There was also concern in Switzerland over the seismic risks of the Fessenheim Nuclear Power Plant, located in France approximately 40 km (25 mi) from the Swiss border. Following Fukushima the Swiss cantons of Basel-Stadt, Basel-Landschaft and Jura asked the French government to suspend the operation of Fessenheim while undertaking a safety review based on the lessons learned from Japan.[24] On 6 April 2011, the Grand Council of Basel-Stadt went further and voted for the plant to be closed.[25] French President Emmanuel Macron announced in November 2018 the closure of Fessenheim's reactors, scheduled for 2020.[26][27]

Waste management edit

Radioactive waste from nuclear power plants is in the tens of thousand tonnes in Switzerland.[28] Its management is the responsibility of the producer.[29] Up until 2006, processing of nuclear waste was mostly done overseas.[30] A 10-year moratorium on its export was issued in 2006.[2][28] Radioactive waste from nuclear power plants in Switzerland is stored on surface sites (mostly in the ZWILAG-building).[29] Plans are underway to move the waste to permanent sites underground.[29][30][31]

Switzerland's radioactive waste management is overseen by Zwilag, a company owned by the four Swiss nuclear utilities. Its central interim dry cask storage facility, ZZL, has been operational since 2001 in Wuerenlingen. Until 2006, Swiss utilities sent waste for reprocessing abroad but discontinued this practice due to regulatory changes. Currently, used fuel is either stored at reactors or transported to Zwilag ZZL.[14]

Politics edit

See also: Anti-nuclear movement in Switzerland

In Switzerland there have been many referendums on the topic of nuclear energy, beginning in 1979 with an initiative for nuclear safety, which was rejected. In 1984, there was a vote on an initiative "for a future without new nuclear power stations" which was rejected with 45% of voters in favor and 55% opposed. On 23 September 1990 Switzerland had two more referendums about nuclear power. The initiative "stop the construction of nuclear power stations," which proposed a ten-year moratorium on the construction of new nuclear power plants, was passed with 54.5% to 45.5%. The initiative for a phase-out was rejected with 47.1% votes in favor against 52.9% opposed. In 2000 there was a vote on a Green Tax for support of solar energy. It was rejected with 31% in favor to 67% opposed.

On 18 May 2003, there were two referendums: "Electricity without Nuclear," asking for a decision on a nuclear power phase-out, and "Moratorium Plus," for an extension of the earlier decided moratorium on the construction of new nuclear power plants. Both were turned down. The results were: Moratorium Plus: 41.6% Yes, 58.4% No; Electricity without Nuclear: 33.7% Yes, 66.3% No.[32] The program of the "Electricity without Nuclear" petition was to shut down all nuclear power stations by 2033, starting with Unit 1 and 2 of Beznau nuclear power stations, Mühleberg in 2005, Gösgen in 2009, and Leibstadt in 2014. "Moratorium Plus" was for an extension of the moratorium for another 10 years, and additionally a condition to stop the present reactors after 40 years of operation. In order to extend the 40 years by 10 more years another referendum would have to be held. The rejection of the Moratorium Plus had come to surprise to many, as opinion polls before the referendum have showed acceptance. Reasons for the rejections in both cases were seen in the worsened economic situation.[33]

On 10 June 2008, ATEL submitted an application to the Swiss Federal Office of Energy for the construction of a new plant in the Niederamt region (SO).[34] A further two applications were to be presented by Axpo and BKW before the end of 2008.[35]

In May 2011, the Swiss government decided to abandon plans to build new nuclear reactors. The country's five existing reactors will be allowed to continue operating, but will not be replaced at the end of their life span. The last will go offline in 2034.[36] In October 2016 energy companies formally withdrew their 2008 applications to build three new power plants.[37]

In November 2016, a referendum was held concerning a Green Party initiative that would have phased out all nuclear plants after a life-span of 45 years.[38] The three oldest nuclear plants (Beznau 1 and 2, and Mühleberg) would have had to be shut down as early as 2017, and every remaining plant by 2029.[38] The initiative was rejected by 54.2% of voters.[39]

On 21 May 2017, 58% of Swiss voters accepted the new Energy Act establishing the energy strategy 2050 and forbidding the construction of new nuclear power plants.[40] The strategy involves phasing out nuclear power, increasing reliance on hydroelectric and other renewables. Hydroelectric power currently supplies 60% of the country's electricity, while solar, wind, biomass, and geothermal generation is expected to double by 2035. No new nuclear reactors will be constructed, and existing plants will continue to operate subject to safety evaluations by ENSI.[14]

See also edit

References edit

  1. ^ Ritchie, Hannah; Roser, Max; Rosado, Pablo (2023). "Switzerland: Energy Country Profile". Our World in Data. Retrieved 23 July 2023.
  2. ^ a b c Evangelista, Sandy (7 July 2011). "How will Swiss radioactive waste be disposed of?". EPFL.
  3. ^ "Switzerland 2018". www-pub.iaea.org. Retrieved 17 February 2024.
  4. ^ "Frequently Asked Questions (FAQ) about the Accident in Japan". ENSI EN. Retrieved 18 February 2024.
  5. ^ "Vorlage Nr. 608, Übersicht". Swiss Government. Retrieved 30 April 2019.
  6. ^ "Kernenergiegesetz (KEG) vom 21. März 2003 (Stand am 1. Januar 2018)". Swiss Government. 1 January 2018. Retrieved 30 April 2019. Rahmenbewilligungen für die Erstellung von Kernkraftwerken dürfen nicht erteilt werden.
  7. ^ "The role of the electric grid in Switzerland's energy future". www.mckinsey.com. Retrieved 20 February 2024.
  8. ^ swetzel (5 February 2021). "All Swiss nuclear power plants comply with the updated earthquake safety standards". ENSI EN. Retrieved 17 February 2024.
  9. ^ "Nuclear Power in Switzerland - World Nuclear Association". world-nuclear.org. Retrieved 17 February 2024.
  10. ^ SFOE, Swiss Federal Office of Energy. "Safeguards in Switzerland". www.bfe.admin.ch. Retrieved 19 February 2024.
  11. ^ SFOE, Swiss Federal Office of Energy. "Facilities and Locations Outside Facilities subject to safeguards". www.bfe.admin.ch. Retrieved 19 February 2024.
  12. ^ a b "Nuclear Power in Switzerland". World Nuclear Association. January 2015.
  13. ^ Wildi, Tobias (2003). "Der Traum vom eigenen Reaktor: Die schweizerische Atomtechnologieentwicklung 1945-1969" [The Dream of Your Own Reactor: Swiss Nuclear Technology Development 1945-1969]. Interferenzen (in German). 4. doi:10.3929/ethz-a-004459704. ISSN 1661-8890.
  14. ^ a b c d e "Nuclear Power in Switzerland - World Nuclear Association". world-nuclear.org. Retrieved 17 February 2024.
  15. ^ "Swiss vote to phase out nuclear power". BBC News. 21 May 2017. Retrieved 8 June 2020.
  16. ^ "Swiss vote against faster nuclear phaseout". BBC News. 27 November 2016. Retrieved 8 June 2020.
  17. ^ "Swiss operators count cost of decommissioning reform: Waste & Recycling". World Nuclear News. 8 November 2019. Retrieved 8 June 2020.
  18. ^ a b "Historic nuclear accident dashed Swiss atomic dreams". SWI swissinfo.ch. 21 January 2019. Retrieved 25 March 2019.
  19. ^ a b c d "Switzerland 2021". www-pub.iaea.org. Retrieved 18 February 2024.
  20. ^ "The most damaging intra-plate earthquake known to have occurred in central Europe", according to (Risk Management Solutions) 1356 Basel Earthquake: 650-year Retrospective, 2006 29 February 2012 at the Wayback Machine.
  21. ^ a b (PDF). RÉSONANCE Ingénieurs-Conseils SA. 5 September 2007. Archived from the original (PDF) on 20 July 2011. Retrieved 30 March 2011.
  22. ^ "BBC News – Swiss search for strategy on nuclear". Bbc.co.uk. 22 March 2011. Retrieved 17 February 2015.
  23. ^ Swiss Federal Council. . Swiss Federal Council. Archived from the original on 23 July 2011. Retrieved 25 March 2011.
  24. ^ . Fr.news.yahoo.com. 20 April 2011. Archived from the original on 3 April 2011. Retrieved 17 February 2015.
  25. ^ "Le Matin, l'actualité en direct: sports, people, politique, économie, multimédia". Lematin.ch. Retrieved 17 February 2015.
  26. ^ Patel, Sonal (29 November 2018). "In Energy Policy Pivot, France Will Shutter 14 Nuclear Reactors". POWER Magazine. Retrieved 25 March 2019.
  27. ^ "France to close 14 nuclear reactors by 2035: Macron". phys.org. 27 November 2018. Retrieved 25 March 2019.
  28. ^ a b Miserez, Marc-André (30 August 2011). "Burying the nuclear waste problem". SWI swissinfo.ch. Retrieved 25 March 2019.
  29. ^ a b c Uehara, Akiko; Jorio, Luigi (11 March 2019). "Radioactive waste: Japan learns from Switzerland's mistakes". SWI swissinfo.ch. Retrieved 25 March 2019.
  30. ^ a b "First permits issued for Swiss exploratory boreholes". World Nuclear News. 21 August 2018. Retrieved 25 March 2019.
  31. ^ "Swiss repository site search moves to final stage". World Nuclear News. 23 November 2018. Retrieved 25 March 2019.
  32. ^ [1] [dead link]
  33. ^ [2] 13 December 2004 at the Wayback Machine
  34. ^ . Atel.eu. Archived from the original on 5 February 2009. Retrieved 17 February 2015.
  35. ^ Dienstag 17. Februar 2015 –. "BKW und Axpo planen weiter an zwei Ersatz-KKW: Nachrichten". NZZ.ch. Retrieved 17 February 2015.{{cite web}}: CS1 maint: numeric names: authors list (link)
  36. ^ Kanter, James (25 May 2011). "Switzerland Decides on Nuclear Phase-Out". The New York Times.
  37. ^ "Request to build nuclear power plants withdrawn". swissinfo.ch. 12 October 2016. Retrieved 13 October 2016.
  38. ^ a b Moulson, Geir (27 November 2016). . The Washington Post (from the Associated Press). Archived from the original on 28 November 2016. Retrieved 27 November 2016.
  39. ^ "Vote Results: Nuclear Power Initiative". Swissinfo. 27 November 2016. Retrieved 27 November 2016.
  40. ^ "Energy strategy 2050". Swiss Federal Office of Energy, Federal Department of Environment, Transport, Energy and Communications. Retrieved 21 May 2017.

External links edit

  • on the website of the Swiss Federal Office of Energy (SFOE).
  • Preparing a seismic hazard model for Switzerland: The view from PEGASOS Expert Group 3.
  • Nuclear power in Switzerland in German, French and Italian in the online Historical Dictionary of Switzerland.
  • Atomic Weapons in German, French and Italian in the online Historical Dictionary of Switzerland.
  • Faryal Mirza, Nuclear plants safe but waste management not. Swissinfo, 24 April 2007. Last accessed 24 April 2007.

April 11, 2024
nuclear, power, switzerland, this, article, multiple, issues, please, help, improve, discuss, these, issues, talk, page, learn, when, remove, these, template, messages, this, article, needs, updated, please, help, update, this, article, reflect, recent, events. This article has multiple issues Please help improve it or discuss these issues on the talk page Learn how and when to remove these template messages This article needs to be updated Please help update this article to reflect recent events or newly available information February 2024 This article s tone or style may not reflect the encyclopedic tone used on Wikipedia See Wikipedia s guide to writing better articles for suggestions February 2024 Learn how and when to remove this template message Learn how and when to remove this template message Nuclear power in Switzerland is generated by three nuclear power plants with a total of four operational reactors see list below Nuclear power has contributed a steady fraction of around forty percent to the Swiss electricity production since 1985 In 2022 it produced 23 terawatt hours TWh of electricity and accounted for 37 of the nation s gross electricity generation of 62 TWh while 55 was produced by hydroelectric plants and 8 came from conventional thermal power stations and non hydro renewable energy sources 1 BeznauGosgenLeibstadtMuhlebergLucensclass notpageimage Switzerland nuclear power plants view Active plants Closed plants Switzerland hosts several research reactors including the CROCUS reactor at the Ecole Polytechnique Federale de Lausanne which has been the country s only remaining research reactor since 2013 Nuclear waste from power plants was processed mostly overseas until 2006 2 Storage is done on surface sites as plans are underway to move nuclear waste underground 2 In 2011 the federal authorities decided to gradually phase out nuclear power in Switzerland as a consequence of the Fukushima accident in Japan 3 In late 2013 the operator BKW decided to cease all electrical generation in 2019 in the Muhleberg plant The structural design of the Muhleberg nuclear power plant closely resembles that of unit 1 of the Fukushima Dai ichi nuclear power plant albeit with some differences 4 As of 8 December 2014 the National Council has voted to limit the operational life time of the Beznau Nuclear Power Plant to 60 years forcing its two reactors to be decommissioned by 2029 and 2031 respectively A popular initiative calling for nuclear power phase out by 2029 was rejected by voters in 2016 5 however on 1 January 2018 an amendment article 12a to the Swiss Nuclear Energy Act came into effect prohibiting the issuing of new general licences for nuclear power plants 6 Switzerland plans to phase out its nuclear capacity by 2044 as part of its Energy Strategy 2050 7 In 2021 the Swiss Federal Nuclear Safety Inspectorate ENSI confirmed that Swiss nuclear plants meet updated earthquake safety standards ensuring resilience to rare seismic events Assessments initiated in 2011 later updated in 2015 affirm their safety measures 8 According to a February 2023 poll approximately 49 of the Swiss population supported the ongoing use of nuclear energy while 38 opposed it 9 Contents 1 Non Proliferation Treaty 2 Reactors 2 1 Power reactors 2 2 Decommissioned and closed reactors 2 3 Research and teaching reactors 3 Seismicity 4 Waste management 5 Politics 6 See also 7 References 8 External linksNon Proliferation Treaty editSwitzerland ratified the Non Proliferation Treaty NPT in March 1977 committing to peaceful nuclear energy use and subjecting its nuclear materials to international safeguards under the International Atomic Energy Agency IAEA The corresponding Safeguards Agreement CSA was ratified in September 1978 followed by the Additional Protocol AP in 2005 which introduced further obligations This legal framework was integrated into Swiss law through the Safeguards Ordinance SaO in February 2005 alongside the Nuclear Energy Act NEA and the Nuclear Energy Ordinance NEO 10 Facilities under safeguards in Switzerland include nuclear power plants such as Beznau Gosgen and Leibstadt along with the Muhleberg plant currently undergoing decommissioning Interim storage facilities for radioactive waste under safeguards are located at Beznau and in Wurenlingen Other safeguarded sites include CERN in Geneva the research reactor CROCUS in Lausanne various facilities at the Paul Scherrer Institute in Villigen and the research reactor PROTEUS which is also undergoing decommissioning 11 Reactors editSee also List of nuclear reactors Switzerland Power reactors edit nbsp The 970 megawatt MW Gosgen nuclear power plantSwitzerland has three nuclear power plants with four reactors in operation as of late December 2019 Beznau and Gosgen also provide district heating in addition to power production 12 13 Beznau 1 1969 and Beznau 2 1972 PWR 365 MWe eachPlant safety each unit Double containment large dry 3 lines safety injection high and low pressure 3 lines emergency feedwater part of these ECCS systems in a bunkered building ability to connect external water sources In 2015 concerns over reactor pressure vessel quality at Beznau reactors delayed unit 1 s restart while unit 2 resumed operations in December Operated by Axpo both units underwent checks and received a CHF 700 million investment for 60 year lifespans The safety case for unit 1 submitted to the Swiss Federal Nuclear Safety Inspectorate ENSI in November 2016 confirmed safety until 2030 with restart approval in March 2018 14 Gosgen KKG 1979 PWR 970 MWePlant safety Double containment large dry 4 lines for high and low pressure safety injection 50 each 4 lines emergency feedwater 50 each 2 additional lines emergency feedwater part of these ECCS systems bunkered ability to connect external water sourcesLeibstadt KKL 1984 BWR 1 165 MWeSafety Double containment with additional wetwell pressure suppression 4000 m3 water pool 4 lines 50 each low pressure injection with 2 lines RHR 2 diverse lines high pressure injection 1 additional line with 2 pumps emergency injection with 1 line RHR nearly all the ECCS systems bunkered ability to connect external water sources The Beznau reactors are owned by the Axpo Holding that also control major parts of Leibstadt Alpiq own 40 of Gosgen and 27 4 of Leibstadt 12 Decommissioned and closed reactors edit In May 2017 Switzerland voted to phase out nuclear power in the country 15 A timetable for the phase out of nuclear power plants has not been set 16 The cost of decommissioning and waste management has been estimated at USD24 7 billion 17 Lucens 1968 GCHWR 6 MWeThe Lucens experimental reactor power plant was opened in 1962 18 It housed an experimental power reactor heavy water moderated and cooled by carbon dioxide It has been shut down since 1969 after a partial core meltdown The site has been decontaminated and decommissioned location 46 41 34 N 6 49 39 E 46 692778 N 6 827500 E 46 692778 6 827500 Lucens site The meltdown is considered the worst nuclear meltdown in Switzerland s history 18 Muhleberg KKM 1972 2019 BWR 355 MWeShut down on 20 December 2019 and being prepared for nuclear decommissioning The Muhleberg reactor is owned by BKW Bernische Kraftwerke AG majority owned by the canton of Berne Plant safety Double containment pressure suppression torus with 2200 m3 water pool 4 lines low pressure core spray 4 lines RHR torus cooling 2 turbine driven HP systems part of the ECCS systems bunkered ability to connect external water sources In a 2023 report from the World Nuclear Association the BKW is underway with the decommissioning of the Muhleberg BWR plant The Federal Department of Environment Transport Energy and Communication issued a decommissioning order in September 2020 Costing approximately 800 million Swiss Francs the process is expected to conclude by 2031 with site relinquishment by 2034 An additional 1 3 billion Swiss Francs are allocated for waste disposal by around 2040 BKW currently holds 930 million Swiss Francs in its decommissioning fund 14 This section needs additional citations for verification Please help improve this article by adding citations to reliable sources in this section Unsourced material may be challenged and removed Find sources Nuclear power in Switzerland news newspapers books scholar JSTOR February 2024 Learn how and when to remove this template message Research and teaching reactors edit nbsp The CROCUS reactor of the Ecole polytechnique federale de Lausanne EPFL SAPHIRThe reactors that became known as SAPHIR was a 10 100 kW range swimming pool reactor of demonstration brought to Switzerland by the U S delegation to the First Conference on the Peaceful Uses of Atomic Energy that took place in Geneva in August 1955 It has been the first reactor ever shown in operation to the public worldwide After the conference the reactor was purchased by the Swiss government on behalf of Reaktor AG a consortium interested in the development of nuclear energy in Switzerland The reactor was moved to Wurenlingen on the location of the future Paul Scherrer Institut and received its name SAPHIR on 17 May 1957 The name of the reactor was inspired by the color of the Cherenkov radiation which was visible when the reactor was in operation SAPHIR remained operational until its permanent shutdown in 1993 19 University of Geneva AGN 201 P reactorThe University of Geneva acquired a 20 W water moderated and graphite reflected research reactor fueled by 20 enriched Uranium from Aerojet General Nucleonics AGN in 1958 It was operated mostly as a teaching reactor until 1989 when it was shutdown and decommissioned University of Basel AGN 211 P reactorThe University of Basel acquired the AGN 211 P reactor presented at the 1958 World Exposition in Brussels Belgium It was a 2 kW water moderated reactor fueled with high enriched Uranium and operated from 1959 to 2013 as a teaching and experimental reactor used amongst other things for neutron activation analysis The research reactor at the Institute of Physics ceased operations in 2013 and was defueled in 2015 Plans were made to decommission the reactor by 2020 19 DIORITA small heavy water cooled and moderated research reactor operated 1960 to 1977 at the former Federal Institute for Reactor Research now Paul Scherrer Institut There was also in the context of Cold War the theoretical idea of producing weapons grade Plutonium in it besides its research purpose It was also the first reactor to be entirely designed and built in Switzerland DIORIT was permanently shut down in 1977 and by the conclusion of 2003 all radioactive materials had been cleared from the reactor facility 19 PROTEUSPROTEUS was a zero power research reactor operated from 1968 to 2011 at what is now the Paul Scherrer Institute Wurenlingen Its peculiarity was that its core was composed of a hollow cavity whose configuration could be changed by filling it with very diverse types of nuclear fuels including sub critical assemblies It was otherwise composed of a graphite reflector and driver containing 5 enriched Uranium dioxide fuel rods This flexibility lead it to be used in four major experimental programs exploring varied reactor designs such as gas cooled fast reactors pebble bed reactors high conversion light water reactors and finally configurations employing real spent nuclear fuel from Swiss nuclear power plants In April 2013 the Paul Scherrer Institute applied for the decommissioning of its Proteus research reactor receiving approval from ENSI in 2016 14 CROCUSIt is a zero power licensed to 100 W max power LWR used for teaching at the Ecole Polytechnique Federale de Lausanne EPFL CROCUS is a critical assembly built in part from the elements of a dismantled subcritical assembly Cactus The name of the latter originated for the numerous instrumentation bars that came out of the core CROCUS is another name in the XXXus series for nuclear installations at EPFL e g the D T nuclear fusion facility Lotus Location 46 31 16 N 6 34 13 E 46 521238 N 6 570361 E 46 521238 6 570361 Crocus reactor The CROCUS reactor at EPFL became the only remaining research reactor in Switzerland Despite its modest power capacity of 100 W it has been instrumental in training nuclear engineers and preserving expertise in the field 19 Seismicity editSee also Geology of the Alps Extending across the north and south side of the Alps Switzerland lies at the junction of the Apulian and Eurasian tectonic plates and there are many active seismic areas under the mountains that show that stresses continue to be released along deep fault lines The 1356 Basel earthquake is the most significant seismological event to have occurred in Central Europe in recorded history 20 and may have had a Mw magnitude as strong as 7 1 21 Between 2002 and 2004 a major study was conducted to assess the seismic risk to Swiss nuclear power plants The PEGASOS study which cost around 10 million Swiss Francs approximately 11 million and which was conducted by 21 European experts with American involvement 21 concluded that the earthquake risk in Switzerland is twice as large as had been previously thought 22 In 2011 following the nuclear emergencies at Japan s Fukushima I Nuclear Power Plant and other nuclear facilities Swiss Federal Councillor Doris Leuthard announced on 14 March a freeze in the authorisation procedures for three new nuclear power plants see Politics and ordered a safety review of the country s existing plants 23 There was also concern in Switzerland over the seismic risks of the Fessenheim Nuclear Power Plant located in France approximately 40 km 25 mi from the Swiss border Following Fukushima the Swiss cantons of Basel Stadt Basel Landschaft and Jura asked the French government to suspend the operation of Fessenheim while undertaking a safety review based on the lessons learned from Japan 24 On 6 April 2011 the Grand Council of Basel Stadt went further and voted for the plant to be closed 25 French President Emmanuel Macron announced in November 2018 the closure of Fessenheim s reactors scheduled for 2020 26 27 Waste management editRadioactive waste from nuclear power plants is in the tens of thousand tonnes in Switzerland 28 Its management is the responsibility of the producer 29 Up until 2006 processing of nuclear waste was mostly done overseas 30 A 10 year moratorium on its export was issued in 2006 2 28 Radioactive waste from nuclear power plants in Switzerland is stored on surface sites mostly in the ZWILAG building 29 Plans are underway to move the waste to permanent sites underground 29 30 31 Switzerland s radioactive waste management is overseen by Zwilag a company owned by the four Swiss nuclear utilities Its central interim dry cask storage facility ZZL has been operational since 2001 in Wuerenlingen Until 2006 Swiss utilities sent waste for reprocessing abroad but discontinued this practice due to regulatory changes Currently used fuel is either stored at reactors or transported to Zwilag ZZL 14 Politics editSee also Anti nuclear movement in Switzerland In Switzerland there have been many referendums on the topic of nuclear energy beginning in 1979 with an initiative for nuclear safety which was rejected In 1984 there was a vote on an initiative for a future without new nuclear power stations which was rejected with 45 of voters in favor and 55 opposed On 23 September 1990 Switzerland had two more referendums about nuclear power The initiative stop the construction of nuclear power stations which proposed a ten year moratorium on the construction of new nuclear power plants was passed with 54 5 to 45 5 The initiative for a phase out was rejected with 47 1 votes in favor against 52 9 opposed In 2000 there was a vote on a Green Tax for support of solar energy It was rejected with 31 in favor to 67 opposed On 18 May 2003 there were two referendums Electricity without Nuclear asking for a decision on a nuclear power phase out and Moratorium Plus for an extension of the earlier decided moratorium on the construction of new nuclear power plants Both were turned down The results were Moratorium Plus 41 6 Yes 58 4 No Electricity without Nuclear 33 7 Yes 66 3 No 32 The program of the Electricity without Nuclear petition was to shut down all nuclear power stations by 2033 starting with Unit 1 and 2 of Beznau nuclear power stations Muhleberg in 2005 Gosgen in 2009 and Leibstadt in 2014 Moratorium Plus was for an extension of the moratorium for another 10 years and additionally a condition to stop the present reactors after 40 years of operation In order to extend the 40 years by 10 more years another referendum would have to be held The rejection of the Moratorium Plus had come to surprise to many as opinion polls before the referendum have showed acceptance Reasons for the rejections in both cases were seen in the worsened economic situation 33 On 10 June 2008 ATEL submitted an application to the Swiss Federal Office of Energy for the construction of a new plant in the Niederamt region SO 34 A further two applications were to be presented by Axpo and BKW before the end of 2008 35 In May 2011 the Swiss government decided to abandon plans to build new nuclear reactors The country s five existing reactors will be allowed to continue operating but will not be replaced at the end of their life span The last will go offline in 2034 36 In October 2016 energy companies formally withdrew their 2008 applications to build three new power plants 37 In November 2016 a referendum was held concerning a Green Party initiative that would have phased out all nuclear plants after a life span of 45 years 38 The three oldest nuclear plants Beznau 1 and 2 and Muhleberg would have had to be shut down as early as 2017 and every remaining plant by 2029 38 The initiative was rejected by 54 2 of voters 39 On 21 May 2017 58 of Swiss voters accepted the new Energy Act establishing the energy strategy 2050 and forbidding the construction of new nuclear power plants 40 The strategy involves phasing out nuclear power increasing reliance on hydroelectric and other renewables Hydroelectric power currently supplies 60 of the country s electricity while solar wind biomass and geothermal generation is expected to double by 2035 No new nuclear reactors will be constructed and existing plants will continue to operate subject to safety evaluations by ENSI 14 See also editEnergy in Switzerland Electricity sector in Switzerland List of nuclear reactors Switzerland Nuclear phase out Switzerland Science and technology in Switzerland Switzerland and weapons of mass destructionReferences edit Ritchie Hannah Roser Max Rosado Pablo 2023 Switzerland Energy Country Profile Our World in Data Retrieved 23 July 2023 a b c Evangelista Sandy 7 July 2011 How will Swiss radioactive waste be disposed of EPFL Switzerland 2018 www pub iaea org Retrieved 17 February 2024 Frequently Asked Questions FAQ about the Accident in Japan ENSI EN Retrieved 18 February 2024 Vorlage Nr 608 Ubersicht Swiss Government Retrieved 30 April 2019 Kernenergiegesetz KEG vom 21 Marz 2003 Stand am 1 Januar 2018 Swiss Government 1 January 2018 Retrieved 30 April 2019 Rahmenbewilligungen fur die Erstellung von Kernkraftwerken durfen nicht erteilt werden The role of the electric grid in Switzerland s energy future www mckinsey com Retrieved 20 February 2024 swetzel 5 February 2021 All Swiss nuclear power plants comply with the updated earthquake safety standards ENSI EN Retrieved 17 February 2024 Nuclear Power in Switzerland World Nuclear Association world nuclear org Retrieved 17 February 2024 SFOE Swiss Federal Office of Energy Safeguards in Switzerland www bfe admin ch Retrieved 19 February 2024 SFOE Swiss Federal Office of Energy Facilities and Locations Outside Facilities subject to safeguards www bfe admin ch Retrieved 19 February 2024 a b Nuclear Power in Switzerland World Nuclear Association January 2015 Wildi Tobias 2003 Der Traum vom eigenen Reaktor Die schweizerische Atomtechnologieentwicklung 1945 1969 The Dream of Your Own Reactor Swiss Nuclear Technology Development 1945 1969 Interferenzen in German 4 doi 10 3929 ethz a 004459704 ISSN 1661 8890 a b c d e Nuclear Power in Switzerland World Nuclear Association world nuclear org Retrieved 17 February 2024 Swiss vote to phase out nuclear power BBC News 21 May 2017 Retrieved 8 June 2020 Swiss vote against faster nuclear phaseout BBC News 27 November 2016 Retrieved 8 June 2020 Swiss operators count cost of decommissioning reform Waste amp Recycling World Nuclear News 8 November 2019 Retrieved 8 June 2020 a b Historic nuclear accident dashed Swiss atomic dreams SWI swissinfo ch 21 January 2019 Retrieved 25 March 2019 a b c d Switzerland 2021 www pub iaea org Retrieved 18 February 2024 The most damaging intra plate earthquake known to have occurred in central Europe according to Risk Management Solutions 1356 Basel Earthquake 650 year Retrospective 2006 Archived 29 February 2012 at the Wayback Machine a b Centrale Nucleaire de Fessenheim appreciation du risque sismique PDF RESONANCE Ingenieurs Conseils SA 5 September 2007 Archived from the original PDF on 20 July 2011 Retrieved 30 March 2011 BBC News Swiss search for strategy on nuclear Bbc co uk 22 March 2011 Retrieved 17 February 2015 Swiss Federal Council Energy Policy The Federal Council orders a revision of decision processes after Fukushima in French Swiss Federal Council Archived from the original on 23 July 2011 Retrieved 25 March 2011 Yahoo Actualites Toute l actualite en France et dans le monde Fr news yahoo com 20 April 2011 Archived from the original on 3 April 2011 Retrieved 17 February 2015 Le Matin l actualite en direct sports people politique economie multimedia Lematin ch Retrieved 17 February 2015 Patel Sonal 29 November 2018 In Energy Policy Pivot France Will Shutter 14 Nuclear Reactors POWER Magazine Retrieved 25 March 2019 France to close 14 nuclear reactors by 2035 Macron phys org 27 November 2018 Retrieved 25 March 2019 a b Miserez Marc Andre 30 August 2011 Burying the nuclear waste problem SWI swissinfo ch Retrieved 25 March 2019 a b c Uehara Akiko Jorio Luigi 11 March 2019 Radioactive waste Japan learns from Switzerland s mistakes SWI swissinfo ch Retrieved 25 March 2019 a b First permits issued for Swiss exploratory boreholes World Nuclear News 21 August 2018 Retrieved 25 March 2019 Swiss repository site search moves to final stage World Nuclear News 23 November 2018 Retrieved 25 March 2019 1 dead link 2 Archived 13 December 2004 at the Wayback Machine Alpiq Group News Atel eu Archived from the original on 5 February 2009 Retrieved 17 February 2015 Dienstag 17 Februar 2015 BKW und Axpo planen weiter an zwei Ersatz KKW Nachrichten NZZ ch Retrieved 17 February 2015 a href Template Cite web html title Template Cite web cite web a CS1 maint numeric names authors list link Kanter James 25 May 2011 Switzerland Decides on Nuclear Phase Out The New York Times Request to build nuclear power plants withdrawn swissinfo ch 12 October 2016 Retrieved 13 October 2016 a b Moulson Geir 27 November 2016 Swiss Reject Plan to Speed up Exit from Nuclear Energy The Washington Post from the Associated Press Archived from the original on 28 November 2016 Retrieved 27 November 2016 Vote Results Nuclear Power Initiative Swissinfo 27 November 2016 Retrieved 27 November 2016 Energy strategy 2050 Swiss Federal Office of Energy Federal Department of Environment Transport Energy and Communications Retrieved 21 May 2017 External links editNuclear energy on the website of the Swiss Federal Office of Energy SFOE Maps of nuclear power reactors Switzerland Preparing a seismic hazard model for Switzerland The view from PEGASOS Expert Group 3 Nuclear power in Switzerland in German French and Italian in the online Historical Dictionary of Switzerland Atomic Weapons in German French and Italian in the online Historical Dictionary of Switzerland Faryal Mirza Nuclear plants safe but waste management not Swissinfo 24 April 2007 Last accessed 24 April 2007 Portals nbsp Nuclear technology nbsp Energy nbsp Switzerland Retrieved from https en wikipedia org w index php title Nuclear power in Switzerland amp oldid 1212971157, wikipedia, wiki, book, books, library,

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