Topics on Current Nuclear Regulation in Japan

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Transcription:

Topics on Current Nuclear Regulation in Japan Commissioner Toyoshi Fuketa Nuclear Regulation Authority(NRA 26 th Annual Regulatory Information Conference Bethesda North Marriott Hotel & Conference Center March 11, 2014

Contents 1 New Regulatory Requirements and the Safety Review of Applications Recent Development in Fukushima- Daiichi NPPs

New Regulatory Requirements 2 New regulatory requirements were promulgated on July 8, 2013 Nuclear Power Plant December 18, 2013 Fuel Cycle Facilities and Research Reactors

Policy in New Requirements for Power Reactors 3 Place emphasis on Defense-in-Depth concept Prepare multi-layered protective measures and, for each layer, achieve the objective only in that layer regardless of the measures in the other layers. Prevent common cause failures Introduce accurate approaches in assessment of earthquake and tsunami and measures against tsunami inundation. Introduce assessment of volcano, tornado, & forest fire. Enhance measures against fire, internal flooding, & loss of power. Make much account of diversity and independence. Prepare multi-layered protection against severe accidents Introduce measures against terrorism

4 Structure of New Requirements for Power Reactors <Pre-existed> Design basis to prevent core damage (Based on single failure, etc. Fire Protection Reliability of power supply Function of other SSCs Natural phenomena Seismic/Tsunami resistance Response to intentional aircraft crash Suppression of radioactive materials dispersal Prevention of CV failure & Large release Prevention of core damage (Postulate multiple failures Internal flooding Fire Protection <New> Reliability of power supply Function of other SSCs Volcano, Tornadoes, forest fire Seismic/Tsunami resistance ( Against SA & Terrorism NEW Reinforced Reinforced

Current Status of Applications of NPPs and NRA s review Applications of 17 Units at 8 sites, from 8 electric power companies Application Licensee NPP Type Submission Tomari 1, 2 Hokkaido 2 loop PWR Jul.8,2013 Tomari 3 Hokkaido 3 loop PWR Jul. 8,2013 Takahama 3, 4 Kansai 3 loop PWR Jul.8,2013 Ohi 3, 4 Kansai 4 loop PWR Jul.8,2013 Ikata 3 Shikoku 3 loop PWR Jul.8,2013 Sendai 1, 2 Kyushu 3 loop PWR Jul.8,2013 Genkai 3, 4 Kyushu 4 loop PWR Jul. 12,2013 Kashiwazaki Kariwa 6,7 Tokyo ABWR Sep.27,2013 Shimane 2 Chugoku BWR Dec.25,2013 Onagawa 2 Tohoku BWR Dec.27,2013 Hamaoka 4 Chubu BWR Feb.14,2014 As of 1st March, 2014 5

Policy in New Requirements for Fuel Cycle Facilities and Research Reactors 6 1. Consideration of unique characteristics of each type of facility Nuclear Fuel Fabrication/ Enrichment Spent Fuel Reprocessing Spent Fuel Interim Storage Low-Level Waste Disposal Management of High-level Waste Research Reactor R&D Facilities using Nuclear Fuel Materials 2. Strengthening of Design Basis Enhanced protective measures against extreme natural hazards Elimination of common cause failure 3. Severe accident measures Reprocessing Fabrication/ Enrichment

Current Status of Fuel Cycle Facilities Applications and NRA s review 7 8 Applications of reprocessing, uranium enrichment, fuel fabrication, spent fuel storage and waste disposal/management facilities Licensee Facility Type Submission Japan Nuclear Fuel Reprocessing January 7, 2014 Japan Nuclear Fuel Uranium Enrichment and Low Level Waste Disposal As of 1 st March, 2014 January 7, 2014 Japan Nuclear Fuel MOX Fuel Fabrication January 7, 2014 Japan Nuclear Fuel Vitrified Waste Storage January 7, 2014 Recyclable-Fuel Storage Company Spent Fuel Storage January 15, 2014 Mitsubishi Nuclear Fuel Fuel Fabrication January 31, 2014 Japan Atomic Energy Agency Waste Management February 7, 2014 Japan Nuclear Fuel Fuel Fabrication February 14,

Fuel removal from Unit 4 Spent Fuel Pool (1/2 8 The removal of fuel stored inside the Unit 4 spent fuel pool started on 18 th November, 2013 and is planned to continue until the end of 2014. Move of the cask to downstairs Move of the cask to downstairs

Fuel removal from Unit 4 Spent Fuel Pool (2/2 Number of transferred fuel assemblies 462/1533 as of March 9, 2014 (SF:440/1331, New:22/202 9

10 Preparation works at Unit 3 Installation of the cover for fuel removal work and fuel handling facility is planned and the installation is scheduled to start in the first half of 2014 (Current Plan. Crane Cover for fuel removal work Modified by the NRA, Originally illustrated by TEPCO

Debris removal from Unit 3 Reactor Build. at Fukushima Dai-ichi NPS 11 March24, 2011 October11, 2013 February21, 2012 October11, 2013 Photo 11 taken by TEPCO

Fukushima Daiichi Radiation Monitoring data of Ground water 12 Groundwater observation hole No 0-3-2(once weekly (Upper Groundwater observation hole No 1-11(twice a week (Upper (Upper Groundwater observation hole No 1-9 (thrice weekly (Upper Groundwater observation hole No 1-8(once weekly (Under Wellpoint between unit 1 and 2(once weekly Groundwater observation hole No 0-1(once weekly (All (Upper (Upper (Under Groundwater observation hole No 0-2(once weekly (All (All Groundwater observation hole No 1(twice a week Groundwater observation hole No 0-4(once weekly (All (All Groundwater observation hole No 1-12(twice a week (Upper Groundwater observation hole No 1-16(twice a week

13 Challenges moving forward for the moment Decontamination of the site area to improve the work environment Reduce the dose rate around the boundary of the site to reduce the effect of the decommissioning activities decontamination of the water stored in the tanks construct waste storage building to shield the radiation from the solid radioactive waste like debris, cut trees, residues from the decontamination process, etc. Reduce the risk related to the storage tanks of contaminated water Accelerate the decontamination of stored water by ALPS Improve the design of the dike to prevent the leak or overflow of the slightly contaminated rain water over Reduce the risk related to the contaminated water stored in the underground floor of turbine buildings, waste management buildings and sea water trenches, etc.. Construct walls to impede the flow of underground water to the sea Reduce the amount of the contaminated water by reducing the inflow of the underground water to turbine buildings Decontaminate and dry up the water stored in sea water trenches Increase the capacity of tanks for the contaminated water

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