Newly developed robot for underwater inspection of Fukushima’s damaged reactors is displayed at a Toshiba Corp test facility in Yokosuka near Tokyo on Thursday. (AP photo)
YOKOSUKA, Japan – A swimming robot designed for underwater inspection of damage inside the reactors caused by the meltdown at the Fukushima Dai-Ichi nuclear plant was unveiled on Thursday.
The plant was destroyed by the March 2011 earthquake and tsunami.
Remote controlled robots are key to the decades-long decommissioning process of the plant. Super-high radiation and structural damage inside the reactors has hampered attempts to inspect areas close to the reactors’ cores.
A model of the newly developed robot for underwater inspection of Fukushima’s melted nuclear reactor, on displayed at a Toshiba Corp test facility in Yokosuka near Tokyo. (AP photo)
The developers, a Japanese industrial group, said they plan to send the probe into the primary containment vessel of Unit 3 at Fukushima in July to study the extent of damage and locate bits of melted fuel thought to have fallen to the bottom of the chamber, now submerged by highly radioactive water.
The robot is nicknamed “mini manbo,” or little sunfish, and is about the size of a loaf of bread. It is equipped with lights, maneuvers with tail propellers and collects data using two cameras and a dosimeter.
During Thursday’s demonstration at a test facility near Tokyo, the probe slowly slid down from a rail and moved across the water. A team operated it remotely, with one guiding the robot while another adjusted a cable that transmits data and serves as its lifeline. The probe entered a mock-up of a containment vessel, its lights glowing in the murky water.
Officials hope the probe can swim deep into the reactor to illuminate the area underneath the reactor’s core.
Japan hopes to locate and start removing fuel from the reactors after Tokyo’s 2020 Olympics.
Earlier, snake and scorpion-shaped robots became stuck inside two reactors. The scorpion robot’s crawling function failed and it was left inside the plant’s Unit 2 containment vessel. The other, designed for cleaning debris for the “scorpion” probe, was called back after two hours when two of its cameras stopped working after its total radiation exposure reached 1,000 Sievert – a level that would kill a human within seconds. The plan had been to use the robot for 10 hours at an exposure level of 100 Sievert per hour.
The swimming robot shown was co-developed by electronics and energy giant Toshiba and the government’s International Research Institute for Nuclear Decommissioning.
Scientists need to know the melted nuclear fuel’s exact location and understand the structural damage in each of the three wrecked reactors to work out the optimum, safest way to remove the fuel.
“The fuel debris will be a challenge,” said Dale Klein, a former US Nuclear Regulatory Commission chief who now serves as an outside adviser to the Tokyo Electric Power Co (TEPCO), the plant’s operator. He said it could take six months to a year to obtain necessary data and decide on how to remove the fuel.
“They will have to identify where it is, then they will have to develop capability to remove it. No one in the world has ever had to remove material like this before. So this is something new and it would have to be done carefully and accurately,” Mr Klein said.
Japanese officials want to determine preliminary removal methods this summer and start work in 2021. The decommissioning technology developers IRID and its partners have designed other basic robots, including a “muscle” arm robot made by Hitachi-GE Nuclear Energy, and a different arm robot made by Mitsubishi Heavy Industries, that are designed to approach the debris from the sides of the reactors.
TEPCO is struggling with the plant’s decommissioning, which is now expected to cost 8 trillion yen (US$70 billion), four times an earlier estimate. Part of that cost will be included in Japanese utility bills.
The 2011 meltdown forced tens of thousands of nearby residents to evacuate their homes. Many are still unable to return due to high radiation levels.