Nuclear Power Plants

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ICAPP2017, Fukui, Japan, April 25 2017 Nuclear Power Plants history and the role Yoshiaki oka Chairman, Japan Atomic Energy Commission Emeritus professor, the University of Tokyo The views expressed here do not necessarily reflect those of JAEC nor the government

Nuclear Power in the World Today There are over 440 commercial nuclear power reactors operable in 31 countries, with over 390,000 MWe of total capacity. About 60 more reactors are under construction. They provide over 11% of the world's electricity as continuous, reliable base load power, without carbon dioxide emissions. 55 countries operate a total of about 245 research reactors, and a further 180 nuclear reactors power some 140 ships and submarines. Source: world nuclear association 2

PWR development PWR was developed based on nuclear submarine reactor technology of US Navy by Westinghouse Nautilus (1954, north pole voyage 1958) Shippingport PWR(1957, Westinghouse, demonstration reactor, 60MWe) Yankee Rowe(1961, 1st commercial plant,185mwe) Saxton(1960, testing reactor,20mwt) Mihama I (1970, 340MWe, Kansai EPCO, Japan) Standardization ;2 loop (600MWe), 3 loop (900MWe), 4 loop (1200MWe): same design of steam generators and coolant pumps VVER, Konvoi, EPR, KPR1400, AP1000, Hualong1 3

USS Nautilus (Nuclear submarine) Source: http://www.hnsa.org/ships/nautilus.htm 4

Shippingport Atomic Power Station Source: http://www.mbe.doe.gov/me70/history/photos.htm 5

BWR development BORAX I; Inherent safety, power excursion test BORAX II; Pressurization, instability study BORAX III; Power generation test BORAX IV; UO2 fuel, stability, radiolysis, radioactivity in turbine island BORAX V; High power density core, nuclear superheat EBWR ( Argonne national lab. 5MWe); Power demonstration, Accumulation of trouble experience VBWR(GE); Economic improvement, natural/forced circulation, direct/indirect cycle, materials testing Dresden I (Demonstration reactor, 180MWe,1959, Zircaloy fuel) JPDR(Japan, JAERI, demonstration reactor, 12.5MWe, 1963) Dresden II Oyster Creek(1 st generation of commercial plants, 1965) Tsuruga 1(357MWe, 1969, JAPC), Fukushima I (460MWe, 1970, TEPCO Swedish BWR, German BWR, ABWR 6

Source: S.M. Stacy Proving the principle DOE/ID 10799 7

Evolution of BWR Source: Y.Oka (editor) Advances in light water reactor technologies, Springer 2011 8

Evolution of BWR containment Source: Y.Oka (editor) Advances in light water reactor technologies, Springer 2011 9

Advances in LWR technologies An example, Computer aided design, engineering and construction 10

Design by Hand drawing (1975 s) Source: Kawahata, Hitachi GE Nuclear Energy, Ltd., Intn l Summer School of Nuclear Power Plants, Tokaimura, Univ. Tokyo 2009" 11

Design by plastic model (1985 s) Source: Kawahata, Hitachi GE Nuclear Energy, Ltd., Intn l Summer School of Nuclear Power Plants, Tokaimura, Univ. Tokyo 2009" 12

Design by 3D CAD (1990 s) Source: Kawahata, Hitachi GE Nuclear Energy, Ltd., Intn l Summer School of Nuclear Power Plants, Tokai mura, Univ. Tokyo 2009" 13

Plant integrated CAE system (present) Source: Kawahata, Hitachi GE Nuclear Energy, Ltd., Intn l Summer School of Nuclear Power Plants, Tokai mura, Univ. Tokyo 2009" 14

Walk through simulation with CAE Source: Y.Oka (editor) Advances in light water reactor technologies, Springer 2011 15

Modular construction Source: Kawahata, Hitachi GE Nuclear Energy, Ltd., Intn l Summer School of Nuclear Power Plants, Tokai mura, Univ. Tokyo 2009" 16

Nuclear Power Utilization in Japan 43 LWR plants; BWR and PWR 9 utilities (TEPCO, Kansai, Chubu etc.) by region and JAPC and J Power(EPDC) First LWR demo (JPDR, 12MWe BWR) in 1959 First commercial plant (GCR) in 1965, LWR in 1970 Developed ABWR and APWR 3 Manufacturers; Toshiba/WH, Hitachi/GE and MHI 3 nuclear fuel manufacturers; GNF, Mitsubishi NF, NFI Commercial nuclear fuel cycle program by JNFL (enrichment, spent fuel reprocessing and low level radioactive waste disposal) in Rokkasho mura Only for peaceful use, no nuclear weapon by law 17

Follow up of Fukushima Nuclear Accident (off site) Evacuation Orders were Lifted in Most of the Restricted Areas Iidate, Kawamata, Namie, Tomioka (April 2017) Iidate Evacuees of Fukushima : 164,865 (May 2012) 77,283 (March 2017) Kawamata Tomioka Namie Difficult-to-Return Zone The area that needs physical protective measures such as barricades and seek evacuation because the radiation dose is at a very high level, Restricted Residence Zone The area that aims to enable the residents to return home and rebuild the community in the future by decontaminating and restoring the infrastructure for early recovery. Zone in Preparation for the Lifting of the Evacuation Order The area that aims to improve the environment for residents to return home by prompt support measures for restoration and reconstruction. 18

Inspections of All Bags of Rice in Fukushima Prefecture Radioactive inspections have been carried out on all bags of rice since 2012. Results in 2016 show that all bags of rice were within the limit (100Bq/kg). Evaluation of monitoring, etc. by IAEA (Excerpts from IAEA report (November 2015)) According to the information provided, although many food restrictions remain in force, it has not been necessary to implement new food restrictions over the reporting period and several such restrictions have been lifted where extensive testing confirms that food collected no longer exceeds the regulatory limit. The IAEA continues to acknowledge that systems are in place and are being implemented to prevent food and agricultural products with levels of caesium radionuclides in excess of the national regulatory limits from entering the food supply chain. The Joint IAEA / FAO Division understands that the measures taken to monitor and respond to issues regarding radionuclide contamination of food are appropriate, and that the food supply chain is under control. 19

Results of Surveys of Marine Fishery Products in Fukushima Prefecture Between April and June 2011 immediately after the disaster, the percentage of marine fishery products in Fukushima Prefecture that exceeded the standard limit (100Bq/kg) was 52.7%. This percentage has continued to decline, and has fallen to 0% since April 2015. Iidate 100Bq/kg over 100Bq/kg or less Excess Rate Toal Number of Specimines:46,536 100Bq/kg over Specimens:2,453 100Bq/kg or less Specimens:44,083 (Excess Rate) Iidate over Source: Fisheries Agency HP Results of radioactive material survey of marine products Update on 24th March http://www.jfa.maff.go.jp/j/housyanou/kekka.html 20

Thorough monitoring inspections are conducted for agricultural, forestry and fishery products prior to shipment The foods exceeding the standard limit (100 Bq/kg) have decreased sharply in recent years. Those exceeding the standard are restricted from shipping. Food categories Brown Rice Grain (excluding Brown rice) Vegetables Fruit Raw Milk Meat Chicken Eggs Honey Grass/Feed Crops Seafood (Marine Seafood) Seafood (River Fish/Lake Fish) Seafood (Fish Farmed in Fresh Water Mountain Herbs(Wild) Mountain Herbs (Cultivation) Mushrooms(Wild) Mushrooms (Cultivation) Tree Nuts Total Number of types 154 16 530 Number of Tested Items Number of Items Exceeding the Standard Limits(100Bq/kg) Source: Monitoring inspection results of agricultural, forestry and fishery products in FY2008 (as of March 31) http://www.pref.fukushima.lg.jp/site/portal/89 4.html Number of Items at/below the Standard Limits(100Bq/kg) 21

Source: http://www.fepc.or.jp/library/pamphlet/zumenshu/pdf/all_english.pdf 22

Source: http://www.fepc.or.jp/library/pamphlet/zumenshu/pdf/all_english.pdf 23

Source; http://www.fepc.or.jp/library/publication/pamphlet/nuclear/zumenshu/index.html 24

Source: http://www.fepc.or.jp/library/pamphlet/zumenshu/pdf/all_english.pdf 25

Role of nuclear power The world will need greatly increased energy supply in the future, especially cleanly generated electricity. Electricity demand is increasing twice as fast as overall energy use and is likely to rise by more than two thirds 2011 to 2035. In 2012, 42% of primary energy used was converted into electricity. Nuclear power should meet the needs of an environmentally benign way of producing electricity on a large scale. Source: world nuclear association 26

G7 Leaders Declaration Ise Shima Summit, 26 27 May 2016, pp.29 In those countries that opt to use nuclear energy, it substantially contributes to the reduction of future GHG emissions and works as a base load energy source. In those countries it is also crucially important to engage the public in science based dialogue and transparency to inform policymaking. We call upon all countries that opt to use nuclear power to ensure the highest standards of safety, security and non proliferation including an independent and effective regulator, and to exchange their expertise and experiences. 27

Thank you for your attention

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