Published time: December 04, 2013 16:56
“Regarding the growing amounts of contaminated water at the site, TEPCO should… examine all options for its further management, including the possibility of resuming controlled discharges (into the sea) in compliance with authorized limits,” the International Atomic Energy Agency (IAEA) said in a statement.
“To pursue this option, TEPCO should prepare appropriate safety and environmental impact assessments.”
The IAEA advice reflects the bind Tokyo Electric Power Co has found itself in as it attempts to manage the risks between holding greater quantities of contaminated water in storage tanks versus dumping partially decontaminated water into the ocean. Local residents and commercial fishing interests have strongly resisted efforts to drain the water into the sea.
Juan Carlos Lentijo, who headed a team of 19 experts that arrived on November 25 to check the decommissioning efforts, told a news conference in Tokyo that public approval was “necessary” before going forward, Japan Times reports.
Lentijo, director of the IAEA’s Division of Nuclear Fuel Cycle and Waste Technology, added that strict monitoring of the impact of the discharge would be necessary.
Despite local opposition to the plan, Lentijo added that “controlled discharge is a regular practice at all nuclear facilities in the world.”
Radioactive water has been leaking from the damaged reactors and mixing with groundwater since an earthquake and tsunami in 2011 destroyed the plant’s power and cooling systems, causing three reactors to melt and damaging a fourth reactor building. So far, around 400,000 tons of highly contaminated water is being stored in approximately 1,000 tanks at the site. Leaks and other flaws found in several tanks earlier this year have raised concerns about more failures, especially if another earthquake or typhoon were to hit the area.
Tokyo Electric Power Corp’s (TEPCO) official (C) and journalists wearing protective suits and masks stand in front of storage tanks for radioactive water in the H4 area, where radioactive water leaked from a storage tank in August, at the tsunami-crippled TEPCO Fukushima Daiichi nuclear power plant in Fukushima prefecture November 7, 2013.(Reuters / Kimimasa Mayama)
The IAEA review, which evaluated the management of contaminated water that has been used to cool reactor cores, as well as work on removing fuel assemblies from the spent fuel pool in Reactor No. 4, noted progress had been made since their last visit this past spring.
“The team considers that since our previous mission in April this year, Japan has achieved good progress in improving its strategy and in allocating necessary resources to conduct a safe decommissioning of the Fukushima Dai-ichi nuclear power station,” Lentijo said, after concluding the inspection Wednesday.
He added that the “situation remains very complex and that there are still very challenging issues that must be solved for the plant’s long-term stability.”
The IAEA suggestion comes one day after officials on the Japanese Industry Ministry’s contaminated water panel released a draft report warning that the Fukushima Dai-ichi plant could run out of storage space for contaminated water within two years if current plans are not fully workable.
The report, drawing from some of 780 sets of proposals sent from around the world, suggested covering the ground with asphalt to reduce rain inflow, building giant tanks with more capacity and installing undersea filters to reduce the radioactivity of water that leaks into the sea. Experts on the panel also proposed setting up a special team to focus on how to tackle the problem of tritium – the sole isotope that cannot be removed chemically by existing technology.
Currently, 400 metric tons of highly contaminated water is being produced at the site on a daily basis. In response, TEPCO has been running a test operation of a high-tech water processing machine called ALPS, which can remove all radioactive materials from the tainted water except tritium.
In line with IAEA recommendations, the utility hopes to discharge the processed water after diluting the level of tritium to legally acceptable limits.