Higashidōri Nuclear Power Plant

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Higashidōri Nuclear Power Plant
Higashidōri Nuclear Power Plant is located in Japan
Higashidōri Nuclear Power Plant
Location of Higashidōri Nuclear Power Plant
Country Japan
Coordinates 41°11′17″N 141°23′25″E / 41.18806°N 141.39028°E / 41.18806; 141.39028Coordinates: 41°11′17″N 141°23′25″E / 41.18806°N 141.39028°E / 41.18806; 141.39028
Status Operational
Construction began November 7, 2000 (2000-11-07)
Commission date December 8, 2005 (2005-12-08)
Operator(s) Tōhoku Electric Power Company
Tokyo Electric Power Company
Power generation
Units operational 1 x 1100 MW
Units planned 3 x 1385 MW
Annual generation 9,269

The Higashidōri Nuclear Power Plant (東通原子力発電所 Higashidōri genshiryoku hatsudensho?, Higashidōri NPP) is a nuclear power plant located in the town of Higashidōri in eastern Aomori Prefecture, on the Shimokita Peninsula, facing the Pacific Ocean. It is unique in Japan in that at this four-unit site, two units are run by one company, the Tōhoku Electric Power Company and two units are run by the Tokyo Electric Power Company. The reactors are all of Toshiba design.

Construction of Tohoku Electric's Higashidori Unit-1 began in November 2000 and was completed in December 2005. The design was based on Tohoku Electric's Onagawa Nuclear Power Plant Unit-3, with improvements to the reactor vessel to allow for greater ease in inspection and maintenance. A separate building, apart from the containment structure, is dedicated specifically for the heat exchanger system based on seawater to provide primary coolant for the reactor.

Earthquake susceptibility[edit]

On 20 December 2012 a panel of the Japanese Nuclear Regulatory Authority decided that two geologic faults under the nuclear plant were geological active: one fault called F-3 running vertically through the southern part of the plant's grounds close by the reactor no. 1 and another fault called F-9, that is running parallel with F-3 were probably active.

Although Tohoku Electric Power claimed that the deformations inside the geological layers were the result of the swelling of clay minerals after they were exposed to water, Kunihiko Shimazaki, commissioner of the Nuclear Regulation Authority and head of the panel, said at the meeting, that any argument that the faults were not active, was totally unacceptable.[1][2]

In the application for permission to construct the No. 1 reactor at the Higashidori plant in 1996, Tohoku Electric Power Co. reported that there would be no active faults under the plant's premises. In another report submitted to the government in 2008 in response to the 2006 revision to the government's seismic-resistance design screening guidelines, the compagny asserted "There are no active faults in the neighborhood within 5 kilometers (from the Higashidori plant)." According to Shimazaki, chairman of the team of experts, the old sketches (of layers studied by Tohoku Electric) lacked credibility.[3]

On 18 February 2012 the NRA-panel of experts presented their draft report on the earthquake fault complex at the premises of the nuclear reactor site. Their conclusions:

  • two faults, named "F-3" and "F-9," did produce several strike-slip thrusts within the past 110,000 years or so
  • the activity from the eight other F-type faults within the nuclear plant were "linked systematically."
  • an evaluation of the "F-1"-fault, that runs under the water-intake facility of the nuclear power plant was needed, because geological changes might have occurred in a period 120.000 to 130.000 years ago.

These conclusions could cause an extra examination of the seismic resistance of the reactor buildings and re-enforcing them. On 14 February 2013 Tohoku Electric Power Co. made a request to the government to raise the electric power rates, while the company thought that the No. 1 reactor could be restarted around July 2015. At the presentation of the report, Tohoku Electric Power opposed these findings, and argued that water influx had caused the swelling of the geological layers, and it would start their own investigations the next day. The NRA-panel saw no grounds for this reasoning, they did not want to wait and planned to finalize the report with other experts.[4]

Reactors Run by Tohoku Electric Company[edit]

The Unit 1 was commissioned on March 9, 2005, and then began commercial operation on December 12, 2005. The site area is 3,580,000 m2 (885 acres).[5]

Unit Type First Criticality Electric Power
Higashidori - 1 BWR March 9, 2005 1100 MW
Higashidori - 2 (planned) ABWR Construction started 2010[citation needed] 1385 MW

Reactors run by Tokyo Electric Company[edit]

Tepco began construction of its Higashidori-1 unit on January 25, 2011, after approval by METI.[6] The total are of the site is 4,500,000 m2 (1,112 acres).[7]

Unit Type First Criticality Electric Power
Higashidori - 1 (planned) ABWR scheduled for completion in March 2017 1385 MW
Higashidori - 2 (planned) ABWR scheduled for completion in 2019 1385 MW

Incidents[edit]

Although the plant was in maintenance shutdown during the 2011 Tohoku earthquake and tsunami, the April 7th aftershock caused the loss of all external power and the plant had to switch to backup power to supply cooling to the spent fuel pool where the reactor's fuel rods were being stored.[8][9]

On 24 October 2011 a research group under professor Mitsuhisa Watanabe of the University of Toyo published a report that raised questions about the seismic safety of the plant-site. A number of faults are present under the complex and in this study it is unclear whether these faults might be active, as some experts noted recently in the NISA safety-screening process. In the study, the researchers said that certain characteristics are typical for the existence of active faults under the plant site, when they analyzed the surveys conducted by the two utilities for constructing the reactors there. Tohoku Electric and TEPCO, denied that there were active faults, and said that the faults were shaped by the swelling of water-bearing strata. Professor emeritus from Hiroshima University, who took part in the analysis, criticized the utilities for this denial. The new report might have an effect on the decision whether to resume operations of the reactor, and could also affect the earthquake-proof safety screenings of other nuclear plants.[10]

References[edit]

External links[edit]