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{{Short description|Overview of nuclear power in Hungary}}
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== The Hungarian Nuclear Power Plant ==
== The Hungarian Nuclear Power Plant ==
Construction on the first Hungarian commercial nuclear reactors began after the [[1973 oil crisis|oil crisis]] in 1974.<ref name=":0">{{cite web|url=http://www.atomeromu.hu/hu/Rolunk/Lapok/default.aspx|title=Kezdőlap|website=www.atomeromu.hu|language=hu-hu|access-date=25 March 2020}}</ref> The Paks Nuclear Power Plant Company (PAV) was founded on 1 January 1976.<ref name=":0" /> The first reactor was completed in 1982.<ref name="Hungary1">"Hungary." ''Nuclear Energy Agency.'' 20 June 2007. < http://www.nea.fr/html/general/profiles/hungary.html#hist></ref> Currently, in the Paks Nuclear Power Plant, there are four nuclear reactors with a net output capacity of 1,826 MWe. [[VVER]] is the Soviet designation for a [[pressurized water reactor]]. The number following VVER, in this case 440, represents the power output of the original design. The VVER-440 Model V213 was a product of the first uniform [[Nuclear safety|safety requirements]] drawn up by the Soviet designers. This model includes added emergency core cooling and [[auxiliary feedwater]] systems as well as upgraded accident localization systems.<ref>http://www.atomeromu.hu/hu/Rolunk/Lapok/default.aspx {{Bare URL inline|date=September 2022}}</ref> Originally, these plants had expected lives of 30 years; however, the Hungarian government decided to complete 20-year life extension projects on the reactors. The cost of these projects will amount to approximately $900 million but will also increase total capacity to 2,000 [[MWe]]. Hungary also had plans to build two more reactors with capacities of 950 [[MWe]] each but cancelled the plans due to decreased power demand in the early 1990s.<ref name="Hungary2">"Nuclear Power in Hungary" ''World Nuclear Association.'' July 2007. < http://www.world-nuclear.org/info/inf92.html></ref>
Construction on the first Hungarian commercial nuclear reactors began after the [[1973 oil crisis|oil crisis]] in 1974.<ref name=":0">{{cite web|url=http://www.atomeromu.hu/hu/Rolunk/Lapok/default.aspx|title=Kezdőlap|website=www.atomeromu.hu|language=hu-hu|access-date=25 March 2020}}</ref> The Paks Nuclear Power Plant Company (PAV) was founded on 1 January 1976.<ref name=":0" /> The first reactor was completed in 1982.<ref name="Hungary1">"Hungary." ''Nuclear Energy Agency.'' 20 June 2007. < http://www.nea.fr/html/general/profiles/hungary.html#hist></ref> Currently, in the Paks Nuclear Power Plant, there are four nuclear reactors with a net output capacity of 1,826 MWe. [[VVER]] is the Soviet designation for a [[pressurized water reactor]]. The number following VVER, in this case 440, represents the power output of the original design. The VVER-440 Model V213 was a product of the first uniform [[Nuclear safety|safety requirements]] drawn up by the Soviet designers. This model includes added emergency core cooling and [[auxiliary feedwater]] systems as well as upgraded accident localization systems.<ref>http://www.atomeromu.hu/hu/Rolunk/Lapok/default.aspx {{Bare URL inline|date=September 2022}}</ref> Originally, these plants had expected lives of 30 years; however, the Hungarian government decided to complete 20-year life extension projects on the reactors. The cost of these projects will amount to approximately $900 million but will also increase total capacity to 2,000 [[MWe]]. Hungary also had plans to build two more reactors with capacities of 950 [[MWe]] each but cancelled the plans due to decreased power demand in the early 1990s.<ref name="Hungary2">"Nuclear Power in Hungary" ''World Nuclear Association.'' July 2007. < http://www.world-nuclear.org/info/inf92.html {{Webarchive|url=https://web.archive.org/web/20121201083220/http://www.world-nuclear.org/info/inf92.html |date=1 December 2012 }}></ref>


Hungary receives all of its fuel, uranium, from TVEL in Russia. [[Spent fuel]] normally is disposed without reprocessing, though there are instances of spent fuel sent to Russia for reprocessing. For the spent fuel that is not reprocessed, it is kept at the nuclear reactor site for five years in pools and then sent to dry storage. Additionally, in 2005 the residents of [[Bátaapáti]] , in South Hungary, approved construction plans for low and intermediate-level waste storage facility. Parliament approved this construction in November 2005. The costs of this construction will be covered by the Central Nuclear Financial Fund, the fund the nuclear power companies pay into.<ref name = Hungary2/> In December 2012, the storage facility started operation by receiving its first batch of nuclear waste. The construction costs were 68&nbsp;billion forint (approx. $310&nbsp;million).<ref name = Hungary3>"Hungarian repository receives first waste" ''World Nuclear News.'' December 2012. < http://www.world-nuclear-news.org/WR-Hungarian_repository_receives_first_waste-1812124.html></ref>
Hungary receives all of its fuel, uranium, from TVEL in Russia.<ref>{{Cite journal |last1=Szulecki |first1=Kacper |last2=Overland |first2=Indra |date=April 2023 |title=Russian nuclear energy diplomacy and its implications for energy security in the context of the war in Ukraine |url=https://www.nature.com/articles/s41560-023-01228-5 |journal=Nature Energy |language=en |volume=8 |issue=4 |pages=413–421 |doi=10.1038/s41560-023-01228-5 |bibcode=2023NatEn...8..413S |issn=2058-7546|doi-access=free |hdl=11250/3106595 |hdl-access=free }}</ref> [[Spent fuel]] is normally disposed without reprocessing, though there are instances of spent fuel sent to Russia for reprocessing. For the spent fuel that is not reprocessed, it is kept at the nuclear reactor site for five years in pools and then sent to dry storage. Additionally, in 2005 the residents of [[Bátaapáti]], in South Hungary, approved construction plans for low and intermediate-level waste storage facility. Parliament approved this construction in November 2005. The costs of this construction will be covered by the Central Nuclear Financial Fund, the fund the nuclear power companies pay into.<ref name = Hungary2/> In December 2012, the storage facility started operation by receiving its first batch of nuclear waste. The construction costs were 68&nbsp;billion forint (approx. $310&nbsp;million).<ref name = Hungary3>"Hungarian repository receives first waste" ''World Nuclear News.'' December 2012. < http://www.world-nuclear-news.org/WR-Hungarian_repository_receives_first_waste-1812124.html></ref>


== Future ==
== Future ==
In January 2014, the [[President of Russia|Russian President]] and Hungarian Prime Minister, [[Vladimir Putin]] and [[Viktor Orbán]] agreed to build two VVER reactor units at the Paks Nuclear Power Plant. According to the €10&nbsp;billion ($11&nbsp;billion) intergovernmental agreement two new power units with the capacity of 1200 MW each will be constructed and are expected to start by 2030.<ref>{{cite web | url=https://www.politico.eu/article/hungary-approves-construction-of-russian-built-nuclear-reactors/ | title=Hungary moves ahead with construction of Russian-built nuclear reactors | date=27 August 2022 }}</ref>
In January 2014, the [[President of Russia|Russian President]] and Hungarian Prime Minister, [[Vladimir Putin]] and [[Viktor Orbán]] agreed to build two VVER reactor units at the Paks Nuclear Power Plant.<ref>{{Cite journal |last1=Szulecki |first1=Kacper |last2=Overland |first2=Indra |date=April 2023 |title=Russian nuclear energy diplomacy and its implications for energy security in the context of the war in Ukraine |url=https://www.nature.com/articles/s41560-023-01228-5 |journal=Nature Energy |language=en |volume=8 |issue=4 |pages=413–421 |doi=10.1038/s41560-023-01228-5 |bibcode=2023NatEn...8..413S |issn=2058-7546|doi-access=free |hdl=11250/3106595 |hdl-access=free }}</ref> According to the €10&nbsp;billion ($11&nbsp;billion) intergovernmental agreement two new power units with the capacity of 1200 MW each will be constructed and are expected to start by 2030.<ref>{{cite web | url=https://www.politico.eu/article/hungary-approves-construction-of-russian-built-nuclear-reactors/ | title=Hungary moves ahead with construction of Russian-built nuclear reactors | date=27 August 2022 }}</ref>


==References==
==References==
{{reflist}}
{{reflist|30em}}


{{Europe topic|Nuclear energy in}}
{{Europe topic|Nuclear energy in}}

Latest revision as of 12:46, 8 August 2024

Building entranceway
Nuclear Energy Office Headquarters in Budapest

In Hungary, nuclear energy plays a decisive role in the national energy mix, While in 2006, only 38 percent of the country's electricity came from nuclear fission, by 2014 that proportion had risen to over 53 percent. It is predicted that rate of around 50 percent will be permanent in the near future.[1]

Beginnings

[edit]

The first Hungarian nuclear reactor was built at Csillebérc (located in Budapest's 12th district) in 1959. The then 2 MWe reactor has been refurbished and modified several times over the last decades, and after its recent conversion its capacity has increased to 10 MW. The reactor was primarily used for research purposes, as well as for the training of the future Hungarian nuclear experts. Experiences gained by the first nuclear reactor had been also used at the Paks Nuclear Power Plant.[2]

The Hungarian Nuclear Power Plant

[edit]

Construction on the first Hungarian commercial nuclear reactors began after the oil crisis in 1974.[3] The Paks Nuclear Power Plant Company (PAV) was founded on 1 January 1976.[3] The first reactor was completed in 1982.[4] Currently, in the Paks Nuclear Power Plant, there are four nuclear reactors with a net output capacity of 1,826 MWe. VVER is the Soviet designation for a pressurized water reactor. The number following VVER, in this case 440, represents the power output of the original design. The VVER-440 Model V213 was a product of the first uniform safety requirements drawn up by the Soviet designers. This model includes added emergency core cooling and auxiliary feedwater systems as well as upgraded accident localization systems.[5] Originally, these plants had expected lives of 30 years; however, the Hungarian government decided to complete 20-year life extension projects on the reactors. The cost of these projects will amount to approximately $900 million but will also increase total capacity to 2,000 MWe. Hungary also had plans to build two more reactors with capacities of 950 MWe each but cancelled the plans due to decreased power demand in the early 1990s.[6]

Hungary receives all of its fuel, uranium, from TVEL in Russia.[7] Spent fuel is normally disposed without reprocessing, though there are instances of spent fuel sent to Russia for reprocessing. For the spent fuel that is not reprocessed, it is kept at the nuclear reactor site for five years in pools and then sent to dry storage. Additionally, in 2005 the residents of Bátaapáti, in South Hungary, approved construction plans for low and intermediate-level waste storage facility. Parliament approved this construction in November 2005. The costs of this construction will be covered by the Central Nuclear Financial Fund, the fund the nuclear power companies pay into.[6] In December 2012, the storage facility started operation by receiving its first batch of nuclear waste. The construction costs were 68 billion forint (approx. $310 million).[8]

Future

[edit]

In January 2014, the Russian President and Hungarian Prime Minister, Vladimir Putin and Viktor Orbán agreed to build two VVER reactor units at the Paks Nuclear Power Plant.[9] According to the €10 billion ($11 billion) intergovernmental agreement two new power units with the capacity of 1200 MW each will be constructed and are expected to start by 2030.[10]

References

[edit]
  1. ^ http://real.mtak.hu/95772/1/MT_131_Weiner.pdf [bare URL PDF]
  2. ^ "Telephely történet | Csillebérc". www.kfki.hu. Retrieved 25 March 2020.
  3. ^ a b "Kezdőlap". www.atomeromu.hu (in Hungarian). Retrieved 25 March 2020.
  4. ^ "Hungary." Nuclear Energy Agency. 20 June 2007. < http://www.nea.fr/html/general/profiles/hungary.html#hist>
  5. ^ http://www.atomeromu.hu/hu/Rolunk/Lapok/default.aspx [bare URL]
  6. ^ a b "Nuclear Power in Hungary" World Nuclear Association. July 2007. < http://www.world-nuclear.org/info/inf92.html Archived 1 December 2012 at the Wayback Machine>
  7. ^ 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.
  8. ^ "Hungarian repository receives first waste" World Nuclear News. December 2012. < http://www.world-nuclear-news.org/WR-Hungarian_repository_receives_first_waste-1812124.html>
  9. ^ 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.
  10. ^ "Hungary moves ahead with construction of Russian-built nuclear reactors". 27 August 2022.