Melted fuel still vexing test extraction methods
Thirteen years on from the catastrophic triple explosions and reactor meltdowns at Fukushima-Daiichi in NE Japan, emergency responders are still trying to observe and examine the melted fuel under the reactors (sometimes called “corium”). Contractors from Tokyo Electric Power Co. (Tepco) have repeatedly failed in attempts to robotically collect a mere three-grams (one 10th of an ounce) of the corium from reactor 2, a project that started three years ago.
The company Amentum [1] working for Mitzubishi Heavy Industries, has built some robotic machinery to try and retrieve a smidgeon of corium to find out what state the meltdown is in [2] because, as National Public Radio reported, “the exact nature of the debris is currently unknown.” [3]
Amentum is trying to build an extraction tool that can function in a radiation zone so fierce that it wrecks most machinery. A 2015 attempt to look inside Unit 1 with a device built by Hitachi-GE Nuclear failed after three hours.[4] Amentum’s first attempt in reactor 2 was stalled August 22 after the long pipe system was found to have been mis-assembled. Then Sept. 18, video problems halted the second try. The AP reported that the probe is “maneuvered remotely by operators at another building because of the fatally high radiation emitted by the melted debris.” [5]
Still, teams of workers have to do15-minute rotating shifts — to limit their exposure to the wreckage’s radioactivity level — preparing the probe for another attempt. Industry slang for the team members is “sponges.” Recovering a mere 3 grams is scheduled to take two weeks because the slow-moving robotic plucker tends to get stuck in the tangled debris and takes a tortured path past meltdown-produced obstacles.
The mission of the 3-gram retrieval program is to determine whether if it’s possible to eventually retrieve and containerize all 880 metric tonnes — 300 tonnes per reactor — of what the Associated Press called “fatally radioactive” wreckage, to keep it out of the environment for eons. Some critics have said decommissioning the whole site could take 100 years.
The idea of covering the whole radioactive malignancy with a roof — like the shed that was installed over the Chernobyl reactor site — is unpopular because of the area’s continuous earthquake activity and the risk of another major quake and tsunami.
Plutonium on the Wind
Nuclear reactors at Fukushima and everywhere smash apart uranium atoms creating a lot of heat to boil water. This atom smashing inside reactors produces radioactive poisons like cesium, iodine, strontium and dozens of others — including plutonium. In addition to this reactor-borne plutonium at Fukushima, about 6% of the fuel in reactor No. 3 was made of plutonium itself. [6]
Some of this plutonium from inside the three destroyed reactors was released to the environment by the meltdowns and explosions of March 2011. On Nov. 15, 2020, the Journal Science of the Total Environment published the report, “Particulate plutonium released from the Fukushima Daiichi meltdowns” noting that plutonium-239 was dispersed widely disaster.[7]
Plutonium, the most toxic substance known to science, was dispersed “up to 230 km away” (142 miles) from the reactor site, the researchers found.
Long-distance dispersion of plutonium was the result of micro-particles being blown by the wind. Five isotopes of plutonium were released including Pu-238, -239, -240, -241, and -242. Some plutonium persists environmentally and contaminates the food chain for 240,000 years.
In 2023, the journal Chemosphere reported a study’s findings of large amounts of highly radioactive cesium-rich micro-particles (CsMPs) in an abandoned school building close to the Fukushima Daiichi site. [8]
Plumes of the microparticles penetrated the building during the meltdowns of March 2011. Phys.org reports that the contamination poses “a threat to human health if inhaled. The study shows that indoor CsMPs should be considered in safety assessments and in building clean-up efforts.”
Long-term Effects of Dumping Unknown, Scientist Warns
Japan hosted the 10th Pacific Island Leaders Meeting in Tokyo last July, which was attended by most leaders of the18-member Pacific Islands Forum.
A hot topic was Japan’s dumping of tens of thousands of tons of contaminated Fukushima wastewater into the Pacific Ocean. The dumping was protested by Pacific rim countries and many, including China and Russia have banned imports of seafood products from the region’s waters. Some 60,000 tons of the wastewater has been discharged by August 2024.
Prime Minister Fumio Kishida assured the island leaders gathering that the discharge of the wastewater was being done “in compliance with international safety standards and practices.” [9] Yet the controversial dumping continues to be criticized by scientists.
In Tokyo, director of the Kewalo Marine Laboratory at the University of Hawaii, Research Professor Robert Richmond, complained that questions remain regarding the effectiveness of the water filtration system, known as ALPS, and about the radioactive contents of the thousands of storage tanks of wastewater.
In October 2018, Tepco admitted that its wastewater filter system, had failed to remove dangerous elements and the company publicly apologized. [10] Tepco promising to re-filter the wastewater, noting that 84% of the 890,000 tonnes then held in tanks (today there are 1.3 million tonnes) still contained high concentrations of iodine-129, ruthenium-106, technetium-99, and cabon-14. Levels of strontium-90, a severe human health hazard, were detected in some tanks at 20,000 times the legal limit. Tepco for years has insisted, and most media still report, that its ALPS treatment process removes everything but tritium, including strontium and 61 other radioactive elements, from the contaminated water.
“The long-term effects of this discharge on Pacific marine ecosystems and those who depend on them are still unknown. Even small doses of radiation can cause cancer or genetic damage,” Prof. Richmond said in a statement to BenarNews after the gathering.
Richmond called Japan’s current radiation monitoring system as inadequate and poorly designed, and said it’s failing to protect ocean and human health.
“The discharge, planned to continue for decades, is irreversible. Radionuclides bioaccumulate in marine organisms and can be passed up the food web, affecting marine life and humans who consume affected seafood,” Richmond said.
The professor also raised concerns about additional hazards already harming the Pacific Ocean and marine life, such as pollution, overfishing, and climate change. He urged Japan to reconsider its approach. Building the contaminated water into cement structures like sea walls is one alternative.
You can hear Prof. Richardson explain the risks of tritium contamination in an NPR interview, here.
Water Treatment Leaves Highly Radioactive Sludge in Search of Containment
Tons of highly radioactive chemicals collected in the ALPS filters are collected as sludge and transferred to heavy plastic casks called “high integrity containers” or HICs, that moved to temporary storage.
The Japanese daily Asahi Shimbun, published a report on the wastewater August 24, 2024 that clearly outlines some problems with the sludge. [11] The end of article reads as follows:
In addition to the release of treated water, there are many other issues to be tackled.
The amount of highly radioactive sludge, or “slurry,” produced in the process of treating contaminated water continues to increase, but no effective treatment method has been decided upon.
The increasing amount of slurry is stored in tanks, but since there is still a risk of leakage when it is in liquid form, plans call for it to be dehydrated to reduce its volume and then process the substance into solid form.
In 2021, TEPCO filed an application to build a device for this purpose. But the Nuclear Regulation Authority pointed out the risk of radiation exposure to workers, and TEPCO was told to review the design.
As a result, the start of the dehydration process has been delayed from fiscal 2022 to fiscal 2026.
Furthermore, no concrete method has been decided on for solidifying the dehydrated slurry.
TEPCO is aiming to determine the solidification method by the end of fiscal 2025 and start solidification around fiscal 2035.
Advocates Demand Stricter Limits on Nuclear Poisons
The Fukushima Fallout Awareness Network in Japan is an alliance of parents, concerned citizens, and affiliated organizations. The group writes:
“The U.S. FDA has set a potentially hazardous level of “allowable” radiation in food: 1,200 Becquerel (Bq) per kilogram (kg) of cesium-134 and cesium-137. “Bec-querels-per-kilogram” is a reference to the amount of highly radioactive cesium-137, which spewed in large quantities by the three burning reactor meltdowns and which persists in the environment for 300 years.
Alarmingly, this is merely a recommendation and holds no legal weight. Such a high threshold exposes a significant portion of the U.S. population, particularly children and women, to considerable health risks.
FFAN is urging the United States to lower its allowable cesium limit to five Bq/kg for food, nutritional supplements and pharmaceuticals, and that the government quickly institute widespread, transparent testing to ensure the limit. The demand aligns with a similar call by the International Physicians for the Prevention of Nuclear War in Germany, which promotes a European Union-wide standard of four to eight (4-to-8) Bq/kg. To sign FFAN’s petition see here.
Kimberly Roberson, Project Director for the Fukushima Fallout Awareness Network, commented on this scandal for Food Safety News, Sept. 4, 2024. [12]
Roberson wrote, “At 1,200 Becquerels per kilogram, FDA has among the highest DILs in the world.
“Standards limiting radiation in food in Japan are 12 times more protective for adults and 24 times more protective for children than U.S. standards. Food too radioactive to be sold to Japanese consumers is allowed to be sold to U.S. consumers and served to U.S. service members and their families on military bases overseas. FDA [limits] for radioactivity in food are non-binding and unenforceable.
“To confront and mitigate the growing public health threat of radioactive contamination in food, Congress should pass the Federal Food Administration Act, establish the FFA to focus like a laser beam on food safety, and empanel independent scientists and experts who understand radiation’s environmental and health effects to advise it.”
The IAEA: International Allowances for Environmental Assaults?
The International Atomic Energy Agency, which ignored its own guidelines in approving the dumping of Fukushima wastewater into the Pacific, has granted approval to Japan’s plan to use some of the 14 million tons of cesium-contaminated soil and debris collected after the Fukushima meltdowns in construction work. [13]
The government intends to get rid of roughly 75 percent of the radioactive soil — if it’s contaminated at or below 8,000 becquerels per kilogram — by using it in road embankments, railways, agricultural land, and land reclamation.
“We are extremely concerned. The IAEA has consistently stated in the past that radioactive waste should be stored centrally and we have supported that position,” said Hajime Matsukubo, the secretary general of the Nuclear Information Centre in Tokyo. He said the limit for soil contamination was previously set at just 100 becquerels per kilogram, and has now been lifted to 8,000 Bq/Kg. “But now they are going against their own recommendations,” he said, reported the South China Morning Post. “My fear is that once they relax this rule, they can then go on and ease all sorts of other rules,” he said.
Endnotes:
[1] Fukushima-MHI, Sep. 29, 2024 [2] The Register online, Sep. 11, 2024 [3] NPR, Mar. 16, 2011, “Plutonium In Fuel Rods: Cause For Concern?” March 16, 2011, [4] The Guardian, Apr, 13, 2015 [5] Associated Press, Sept. 15, 2024, [6] NPR, Mar. 16, 2011, “Plutonium in Fuel Rods: Cause For Concern?” March 16, 2011, [7] “Particulate plutonium released from the Fukushima Daiichi meltdowns,” Science of The Total Environment, Vol. 743, Nov. 15, 2020; ; “Particulate plutonium released from the Fukushima Daiichi meltdowns,” July 14, 2020, by University of Helsinki, [8] Physics.org, May 29, 2023, [9] Radio New Zealand, RNZ Pacific, July 19, 2024, [10] “Fukushima nuclear plant owner apologises for still-radioactive water”, Reuters, Oct. 11, 2018, [11] “60,000 tons of treated water from nuclear site discharged so far,” The Asahi Shimbun, August 24, 2024, [12] Food Safety News, Sept. 4, 2024, [13] South China Morning Post, Sept. 12, 2024 -and- The Independent, Sept.12, 2024,