Tag Archives: stored spent fuel and accidents

Fracking v. Nuclear Wastes: the Fate of New Mexico

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Holtec International, a Florida-based company, aims to rail thousands of canisters of spent nuclear fuel to Lea County, New Mexico, United States, and store the containers below ground. The site has a 40-year license and could ultimately hold around 170,000 metric tons of used radioactive fuel—about twice as much as the U.S. currently holds. It would be the largest such facility in the world, and Holtec says it would further the development of U.S. nuclear energy. [This plan is opposed by Fasken Oil and Ranch] a company that claims that  a nuclear incident in the Permian basin, which cranks out more oil than Iraq and Libya combined, would have devastating consequences for U.S. energy and the local economy. “I’m not antinuclear,” Fasken Assistant General Manager Tommy Taylor, said. “We just don’t feel like siting all the nuclear waste in the middle of our biggest oil and gas resource is a good idea.” 

Fasken said the nuclear-waste storage sites threaten its operations in the Permian. According to the court filing of Fasken:

“The proposed site sits on top of and adjacent to oil and gas minerals to be developed
by means of fracture stimulation techniques. Currently, drilling techniques used to
extract minerals in the Permian Basin involve drilling horizontally into deep
underground formations up to two miles beneath the earth’s surface. High pressure
fluids are pumped into the wells, in some cases exceeding twelve thousand pounds
per square inch. This pressure is power enough to fracture the surrounding rock
thus releasing the oil and gas. The pressure creates fissures and cracks
beneath the surface. And, at this time, there are oil and gas operators testing a new
technique of simultaneously drilling and fracturing up to 49 horizontal wellbores in
a single section of land. Either the traditional or new and unproven drilling
technique, involving more than 20,000,000 bbls of water and sand, could
conceivably be utilized to inject into and withdraw from the rock formation beneath
and surrounding the Holtec site. Hydraulic fracturing beneath and around Holtec
should give the NRC pause and is sufficient reason not to proceed.” (HOLTEC INTERNATIONAL’S ANSWER OPPOSING FASKEN’S, pdf)

The yearslong fight has entangled large oil companies, the country’s top nuclear regulator, the states of Texas and New Mexico, as well as local communities that want to host the nuclear waste

Supporters of the nuclear-waste projects say they could help break a decades-old nuclear waste logjam that has led to radioactive refuse piling up at reactors. President Biden and billionaire investors are endorsing new nuclear projects to reduce greenhouse-gas emissions, but the U.S. has yet to figure out where to permanently unload some of the most hazardous material in the world.  The Permian is home to two sites that handle some types of nuclear waste and to the only commercial uranium-enrichment facility in the country.  Holtec’s storage would be temporary, and some nuclear experts say interim facilities can be a stopgap until the federal government builds a permanent, deep geologic repository. A plan to house nuclear waste at Nevada’s Yucca Mountain fizzled under former President Barack Obama, and the search for an alternative site has stalled.

As a result, the US federal government is paying utilities billions of dollars to keep used fuel rods in steel-lined concrete pools and dry casks at dozens of sites.  Consolidating used nuclear fuel at one or two facilities would lessen that financial

Fasken has notched court victories. Last year, the U.S. Fifth Circuit Court of Appeals in New Orleans found that federal law didn’t authorize the Nuclear Regulatory Commission to license a private, away-from-reactor storage facility for spent nuclear fuel. It vacated the federal license for another storage project proposed by Interim Storage Partners, a joint-venture between Orano USA and Waste Control Specialists. The Nuclear Regulatory Commission has asked the court to reconsider.

The Holtec project faces other hurdles. New Mexico last year passed legislation all but banning storage of high-level nuclear waste. Texas lawmakers have also opposed interim storage facilities. The Holtec spokesman said the company was evaluating the legislation’s impact on the project. Fasken expects the fight over interim storage will eventually reach the Supreme Court. 

Excerpts from Benoit Morenne, The War over Burying Nuclear Waste in America’s Busiest Oil Field, WSJ, Feb. 19, 2024

Imagining Failure: Nuclear Waste on the Beach, California

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But for all the good vibes and stellar sunsets of  San Onofre state beach in California, beneath the surface hides a potential threat: 3.6m lb of nuclear waste from a group of nuclear reactors shut down nearly a decade ago. Decades of political gridlock have left it indefinitely stranded, susceptible to threats including corrosion, earthquakes and sea level rise. The San Onofre reactors are among dozens across the United States phasing out, but experts say they best represent the uncertain future of nuclear energy.

“It’s a combination of failures, really,” said Gregory Jaczko, who chaired the US Nuclear Regulatory Commission (NRC), the top federal enforcer, between 2009 and 2012, of the situation at San Onofre. That waste is the byproduct of the San Onofre Nuclear Generating Station (Songs), three nuclear reactors primarily owned by the utility Southern California Edison (SCE) that has shut down….

Since there is not central repository for the final disposition of nuclear wasted in the United States,  the California Coastal Commission approved in 2015 the construction of an installation at San Onofre to store it until 2035. In August 2020, workers concluded the multi-year burial process, loading the last of 73 canisters of waste into a concrete enclosure. San Onofre is not the only place where waste is left stranded. As more nuclear sites shut down, communities across the country are stuck with the waste left behind. Spent fuel is stored at 76 reactor sites in 34 states….

At San Onofre, the waste is buried about 100ft from the shoreline, along the I-5 highway, one of the nation’s busiest thoroughfares, and not far from a pair of faults that experts say could generate a 7.4 magnitude earthquake. Another potential problem is corrosion. In its 2015 approval, the Coastal Commission noted the site could have a serious impact on the environment in case of coastal flooding and erosion hazards beyond its design capacity, 

Concerns have also been raised about government oversight of the site. Just after San Onofre closed, SCE began seeking exemptions from the NRC’s operating rules for nuclear plants. The utility asked and received permission to loosen rules on-site, including those dealing with record-keeping, radiological emergency plans for reactors, emergency planning zones and on-site staffing.

San Onofre isn’t the only closed reactor to receive exemptions to its operating licence. The NRC’s regulations historically focused on operating reactors and assumed that, when a reactor shut down, the waste would be removed quickly.

It’s true that the risk of accidents decreases when a plant isn’t operating, said Dave Lochbaum of the Union of Concerned Scientists. But adapting regulations through exemptions greatly reduces public transparency, he argued. “Exemptions are wink-wink, nudge-nudge deals with the NRC,” he said. “In general, it’s not really a great practice,” former NRC chair Jaczko said about the exemptions. “If the NRC is regulating by exemption, it means that there’s something wrong with the rules … either the NRC believes the rules are not effective, and they’re not really useful, or the NRC is not holding the line where the NRC should be holding line,” he said…

It’s worth considering how things fail, though, argued Rod Ewing, nuclear security professor at Stanford University’s center for international security and cooperation, and author of a 2021 report about spent nuclear waste that focuses on San Onofre. “The problem with our safety analysis approach is we spend a lot of time proving things are safe. We don’t spend much time imagining how systems will fail,” he said. “And I think the latter is what’s most important.”

Excerpts from Kate Mishkin, ‘A combination of failures:’ why 3.6m pounds of nuclear waste is buried on a popular California beach, Guardian, Aug. 

Lots of Money Forever for Waste that Lasts for Forever: Nuclear Waste in Japan

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Since August 2020, two local governments on the western shore of Hokkaido in Japan have said they will apply to the central government for a survey that could eventually lead to their municipalities hosting a permanent underground repository for high-level radioactive waste. The fact that these two localities made their announcements about a month apart and are situated not far from each other was enough to attract more than the usual media attention, which revealed not only the straitened financial situations of the two areas, but also the muddled official policy regarding waste produced by the country’s nuclear power plants.

The respective populations of the two municipalities reacted differently. The town of Suttsu made its announcement in August 2020, or, at least, its 71-year-old mayor did, apparently without first gaining the understanding of his constituents, who, according to various media, are opposed to the plan…. Meanwhile, the mayor of the village of Kamoenai says he also wants to apply for the study after the local chamber of commerce urged the village assembly to do so in early September 2020. TBS asked residents about the matter and they seemed genuinely in favor of the study because of the village’s fiscal situation. Traditionally, the area gets by on fishing — namely, herring and salmon — which has been in decline for years. A local government whose application for the survey is approved will receive up to ¥2 billion in subsidies from the central government… Kamoenai, already receiving subsidies for nuclear-related matters. The village is 10 kilometers from the Tomari nuclear power plant, where some residents of Kamoenai work. In exchange for allowing the construction of the plant, the village now receives about ¥80 million a year, a sum that accounts for 15 percent of its budget. According to TBS, Kamoenai increasingly relies on that money as time goes by, since its population has declined by more than half over the past 40 years.

Since Japan’s Nuclear Waste Management Organization started soliciting local governments for possible waste storage sites in 2002, a few localities have expressed interest, but only one — the town of Toyo in Kochi Prefecture — has actually applied, and then the residents elected a new mayor who canceled the application. The residents’ concern was understandable: The waste in question can remain radioactive for up to 100,000 years.

The selection process also takes a long time. The first phase survey, which uses existing data to study geological attributes of the given area, requires about two years. If all parties agree to continue, the second phase survey, in which geological samples are taken, takes up to four years. The final survey phase, in which a makeshift underground facility is built, takes around 14 years. And that’s all before construction of the actual repository begins.

Neither Suttsu nor Kamoenai may make it past the first stage. Yugo Ono, an honorary geology professor at Hokkaido University, told the magazine Aera that Suttsu is located relatively close to a convergence of faults that caused a major earthquake in 2018. And Kamoenai is already considered inappropriate for a repository on a map drawn up by the trade ministry in 2017.

If the Nuclear Waste Management Organization’s process for selecting a site sounds arbitrary, it could reflect the government’s general attitude toward future plans for nuclear power, which is still considered national policy, despite the fact that only three reactors nationwide are online.

Japan’s spent fuel is being stored in cooling pools at 17 nuclear plants comprising a storage capacity of 21,400 tons. As of March 2020, 75 percent of that capacity was being used, so there is still some time to find a final resting place for the waste. Some of this spent fuel was supposed to be recycled at the Rokkasho Reprocessing Plant in Aomori Prefecture, but, due to numerous setbacks, it doesn’t look as if it’s ever going to open, so the fuel will just become hazardous garbage.

According to some, the individual private nuclear plants should be required to manage their own waste themselves. If they don’t have the capacity, then they should create more. It’s wrong to bury the waste 300 meters underground because many things can happen over the course of future millennia. The waste should be in a safe place on the surface, where it can be readily monitored.  However, that would require lots of money virtually forever, something the government would prefer not to think about, much less explain. Instead, they’ve made plans that allow them to kick the can down the road for as long as possible.

Excerpt from PHILIP BRASOR, Hokkaido municipalities gamble on a nuclear future, but at what cost? Japan Times, Oct. 24, 2020

The Enormous Task of Nuclear Waste Storage

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“The Koeberg spent fuel pool storage capacity in South Africa  is currently over 90% full. (These) pools will reach (their) capacity by April 2020,” Eskom, the South African utility, told Reuters in a statement on Nov. 25, 2019.  Koeberg produces about 32 tonnes of spent fuel a year. Fuel assemblies, which contain radioactive materials including uranium and plutonium that can remain dangerous for thousands of years, are cooled for a decade under water in spent fuel pools.

Fuel Pool at Koeberg, South Africa

In 2016,  Eskom paid an estimated 200 million rand ($13.60 million) for an initial batch of seven reinforced dry storage casks from U.S. energy company Holtec International to help keep Koeberg running beyond 2018.  Eskom now has nine new unused casks on site, each with an individual capacity of 32 spent fuel assemblies, with another five expected to be delivered soon.

Holtec Cask

The 14 casks should ensure there is sufficient storage in the spent fuel pool until 2024, Eskom said, ahead of a tender for an extra 30 casks….Anti-nuclear lobby group Earthlife Africa said South Africa could not afford the social, environmental and economic costs associated with nuclear waste.  “We have a ticking bomb with high-level waste and fuel rods at Koeberg,” said Makoma Lekalakala, Earthlife Africa’s director.

Wendell Roelf, Waste storage at Africa’s only nuclear plant brimming, Reuters, Nov. 25, 2019

Never-Ending CleanUp: Fukushima

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 The operator of Japan’s wrecked Fukushima nuclear plant completed in April 2019 the removal of the first fuel rods from a cooling pool high up in a badly damaged reactor building, a rare success in the often fraught battle to control the site.  The batch of 22 unused fuel assemblies, which each contain 50-70 of the fuel rods, was transferred by a trailer to a safer storage pool, the last day of a four-day operation, Tokyo Electric Power Co, or Tepco, said in a statement.

The company must carefully pluck more than 1,500 brittle and potentially damaged assemblies from the unstable reactor No.4., the early stages of a decommissioning process following the 2011 earthquake and tsunami that wrecked the site.

Tepco estimates removing the damaged assemblies from reactor No.4 alone will take a year. Some experts say that timeline is ambitious.  Still, it is an urgent operation. They are being stored 18 meters (59 feet) above ground level in a building that has buckled and tilted and could collapse if another quake strikes.  Carefully plucking the damaged fuel assemblies from the reactor building is being seen as a test of Tepco’s ability to move ahead with decommissioning the whole facility – a task likely to cost tens of billions of dollars and take decades.  The removal has to be conducted under water. If the rods are exposed to air or if they break, huge amounts of radioactive gases could be released into the atmosphere. Each assembly weighs around 300 kg (660 pounds) and is 4.5 meters (15 feet) long.  The hazardous removal operation has been likened by Arnie Gundersen, a veteran U.S. nuclear engineer and director of Fairewinds Energy Education, to trying to pull cigarettes from a crushed pack

Exerpts from In Start of Long Operation, Fukushima Removes First Fuel Rods, Reuters, April 2019

Devil’s Idea for Tokyo’s End: Fukushima

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By late March 2011… after tsunami struck the Fukushima Daiichi plant—it was far from obvious that the accident was under control and the worst was over. Chief Cabinet Secretary Yukio Edano feared that radioactive material releases from the Fukushima Daiichi plant and its sister plant (Fukushima Daini) located some 12 km south could threaten the entire population of eastern Japan: “That was the devil’s scenario that was on my mind. Common sense dictated that, if that came to pass, then it was the end of Tokyo.”

Prime Minister Naoto Kan asked Dr. Shunsuke Kondo, then-chairman of the Japanese Atomic Energy Commission, to prepare a report on worst-case scenarios from the accidenta .  Dr. Kondo led a 3-day study involving other Japanese experts and submitted his report (Kondo, 2011) to the prime minister on March 25, 2011. The existence of the report was initially kept secret because of the frightening nature of the scenarios it described. An article in the Japan Times quoted a senior government official as saying, “The content [of the report] was so shocking that we decided to treat it as if it didn’t exist.” …

One of the scenarios involved a self-sustaining zirconium cladding fire in the Unit 4 spent fuel pool. Radioactive material releases from the fire were estimated to cause extensive contamination of a 50- to 70-km region around the Fukushima Daiichi plant with hotspots significant enough to require evacuations up to 110 km from the plant. Voluntary evacuations were envisioned out to 200 km because of elevated dose levels. If release from other spent fuel pools occurred, then contamination could extend as far as Tokyo,…There was particular concern that the zirconium cladding fire could produce enough heat to melt the stored fuel, allowing it to flow to the bottom of the pool, melt through the pool liner and concrete bottom, and flow into the reactor building.

Lessons Learned from the Fukushima Daiichi Accident for Spent Fuel Storage: The U.S. nuclear industry and its regulator should give additional attention to improving the ability of plant operators to measure real-time conditions in spent fuel pools and maintain adequate cooling of stored spent fuel during severe accidents and terrorist attacks. These improvements should include hardened and redundant physical surveillance systems (e.g., cameras), radiation monitors, pool temperature monitors, pool water-level monitors, and means to deliver pool makeup water or sprays even when physical access to the pools is limited by facility damage or high radiation levels….

[At nuclear power plants there must be…adequate separation of plant safety and  security systems so that security systems can continue to function independently if safety systems are damaged. In particular, security systems need to have independent, redundant, and protected power sources…]

Excerpts from Lessons Learned from the Fukushima Accident for Improving
Safety and Security of U.S. Nuclear Plants: Phase 2, US National Academies, 2016