Tag Archives: Barents sea nuclear waste

How to Lift Nuclear Submarines from Arctic Seabed

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Projects aimed to improve nuclear safety are some of the few successful arenas for cooperation still going strong between the European Union and Russia…especially wiht regard to the two old Soviet submarines K-159 and K-27, both rusting on the Arctic seabed with highly radioactive spent nuclear fuel elements in their reactors…

“The sunken submarines K-27 and K-159 are the potential source of contamination of the Arctic, the riskiest ones,” Ambassador Jari Vilén of Filand explains. “Assessments made by the European Union together with Rosatom show that in 20-30 years’ time the metals will start corroding and there is a genuine risk of leakage. Therefore, lifting them in the coming decade is extremely important.”

“I’m very happy we are making progress and that a decision to make a technical review has been decided by the European Bank for Reconstruction and Development (EBRD) through the Northern Dimension Environmental Partnership. Hopefully, when these technical reviews are done, we will come to a phase where we can make decisions on a lifting operation,” Vilén says with enthusiasm.

Lifting a nuclear submarine from the seabed is nothing new. It is difficult, but doable. In 2002, the Dutch salvage company Mammoet managed to raise the ill-fated “Kursk” submarine from the Barents Sea. A special barge was built with wires attached underneath. The wreak of “Kursk” was safely brought in and placed in a dry-dock where the decommissioning took place.

K-159 is a November-class that sank in late August 2003 while being towed in bad weather from the closed naval base of Gremikha on the eastern shores of the Kola Peninsula towards the Nerpa shipyard north of Murmansk. The two onboard reactors contain about 800 kilograms of spent nuclear fuel, with an estimated 5,3 GBq of radionuclides. A modeling study by the Norwegian Institute of Marine Research said that a pulse discharge of the entire Cesium-137 inventory from the two reactors could increase concentrations in cod in the eastern part of the Barents Sea up to 100 times current levels for a two-year period after the discharge. While a Cs-137 increase of 100 times in cod sounds dramatic, the levels would still be below international guidelines. But that increase could still make it difficult to market the affected fish.

K-27, the other submarine in urgency to lift, was on purpose dumped in the Kara Sea in 1982….

Lifting the dumped reactors from the Kara Sea, a price tag of nearly €300 million has been mentioned. The sum includes K-27 and K-159, but also the other dumped reactors from K-11, K-19 and K-140, as well as spent nuclear fuel from an older reactor serving icebreaker “Lenin”. “The value of the fishing stocks in the area is ruffly €1.4 billion annually,” he says.

Excerpts from Thomas Nilsen, EU willing to co-fund lifting of sunken nuclear subs from Arctic seabed, The Barents Observer, Nov. 22, 2021

The 17 000 Nuclear Objects Dumped in the Kara Sea

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“Having the exact coordinates for the dumped container with the nuclear reactors from K-19 submarine is undoubtedly good news,” says nuclear safety expert Andrey Zolotkov. Zolotkov hopes for risk assessments to be carried out soon with the aim to see how the nuclear reactors could be lifted out of the maritime environment and brought to a yard for safe decommissioning…More than 50 years have passed since the dumping.

In the so-called “White Book” on dumped nuclear objects, originally published by President Boris Yeltsin’s environmental advisor Alexei Jablokov, the dumping of the submarine’s two reactors is listed for the Abrosimova Bay on the east coast of the Kara Sea, but exact location hasn’t been confirmed.

It was in August 2021 that the the crew on “Akademik M. Keldysh” with the help of sonars and submersibles found the container. Both marine researchers, oceanology experts from Russia’s Academy of Science and representatives of the Ministry of Emergency Situations are working together in the expedition team.

K-19 is one of the most infamous nuclear-powered submarines sailing for the Soviet navy’s Northern Fleet. In July 1961 the reactor lost coolant after a leak in a pipe regulating the pressure to the primary cooling circuit. The reactor water started boiling causing overheating and fire. Crew members managed to extinguish the fire but had big problems fixing the leak in an effort to save the submarine from exploding. Many of them were exposed to high doses of radioactivity before being evacuated to a nearby diesel submarine sailing in the same area of the North Atlantic. Eight of the crew members who had worked on the leak died of radiation poisoning within a matter of days.

The submarine was towed to the Skhval shipyard (No. 10) in Polyarny. Later, the reactor compartment was cut out and a new installed. The two damaged reactors, still with spent nuclear fuel, were taken north to the Kara Sea and dumped. Keeping the heavily contaminated reactors at the shipyard was at the time not considered an option.

In the spring of 2021, Russia’s Foreign Ministry invited international experts from the other Arctic nations to a conference on how to recover sunken radioactive and hazardous objects dumped by the Soviet Union on the seafloor east of Novaya Zemlya. Moscow chairs the Arctic Council for the 2021-2023 period. 

The two reactors from the K-19 submarine are not the only objects posing a risk to marine environment. In fact, no other places in the world’s oceans have more radioactive and nuclear waste than the Kara Sea. Reactors from K-11 and K-140, plus the entire submarine K-27 and spent uranium fuel from one of the old reactors of the “Lenin” icebreaker are also dumped in the same sea. While mentality in Soviet times was «out of sight, out of mind», the Kara Sea seemed logical. Ice-covered most of the year, and no commercial activities. That is changing now with rapidly retreating sea ice, drilling for oil-, and gas, and increased shipping…Additional to the reactors, about 17,000 objects were dumped in the Kara Sea in the period from the late 1960s to the early 1990s.

Excerpts from Thomas Nilsen, Expedition finds reactors 56 years after dumping, The Barents Observer, Sept. 2, 2021

The Game of Chicken in the Melting Arctic

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In 2018 the NATO alliance, joined by Sweden and Finland, held Trident Juncture, its largest exercise since the end of the cold war, in Norway. That involved the first deployment of an American aircraft-carrier in the Arctic Circle for three decades. Western warships have been frequent visitors since. On May 1, 2020 a “surface action group” of two American destroyers, a nuclear submarine, support ship and long-range maritime patrol aircraft, plus a British frigate, practised their submarine hunting skills in the Norwegian Sea.

Such drills are not unusual. But on May 4, 2020 some of those ships broke off and sailed further north into the Barents Sea, along with a third destroyer. Although American and British submarines routinely skulk around the area, to spy on Russian facilities and exercises covertly, surface ships have not done so in a generation. On May 7, 2020 Russia’s navy greeted the unwelcome visitors by announcing that it too would be conducting exercises in the Barents Sea—live-fire ones, in fact. On May 8, 2020… the NATO vessels departed.

It is a significant move. The deployment of destroyers which carry missile-defence systems and land-attack cruise missiles is especially assertive. After all, the area is the heart of Russian naval power, including the country’s submarine-based nuclear weapons. Russia’s Northern Fleet is based at Severomorsk on the Kola peninsula, to the east of Norway’s uppermost fringes.

Western navies are eager to show that covid-19 has not blunted their swords, at a time when America and France have each lost an aircraft-carrier to the virus. But their interest in the high north predates the pandemic. One purpose of the foray into the Barents Sea was “to assert freedom of navigation”, said America’s navy. Russia has been imposing rules on ships that wish to transit the Northern Sea Route (NSR), an Arctic passage between the Atlantic and Pacific that is becoming increasingly navigable as global warming melts ice-sheets . America scoffs at these demands, insisting that foreign warships have the right to pass innocently through territorial waters under the law of the sea. Although last week’s exercise did not enter the NSR, it may hint at a willingness to do so in the future.

On top of that, the Arctic is a growing factor in NATO defence policy. Russia has beefed up its Northern Fleet in recent years…Russian submarine activity is at its highest level since the cold war…Ten subs reportedly surged into the north Atlantic in October 2019  to test whether they could elude detection….Russia’s new subs are quiet and well-armed. As a result, NATO’s “acoustic edge”—its ability to detect subs at longer ranges than Russia—“has narrowed dramatically.”

Russia primarily uses its attack submarines to defend a “bastion”, the area in the Barents Sea and Sea of Okhotsk where its own nuclear-armed ballistic-missile submarines patrol.  A separate Russian naval force known as the Main Directorate of Deep-Sea Research (GUGI, in its Russian acronym) might also target the thicket of cables that cross the Atlantic.

The challenge is a familiar one. For much of the cold war, NATO allies sought to bottle up the Soviet fleet in the Arctic by establishing a picket across the so-called GIUK gap, a transit route between Greenland, Iceland and Britain that was strung with undersea listening posts….The gap is now back in fashion and NATO is reinvesting in anti-submarine capabilities after decades of neglect. America has stepped up flights of P8 submarine hunting aircraft from Iceland, and Britain and Norway are establishing P8 squadrons of their own. The aim is to track and hold at risk Russian nuclear subs as early as possible, because even a single one in the Atlantic could cause problems across a large swathe of ocean.

GIUK (Greenland, Iceland, UK) gap. Image from wikipedia.

But a defensive perimeter may not be enough. A new generation of Russian ship-based missiles could strike NATO ships or territory from far north of the GIUK gap, perhaps even from the safety of home ports. “This technological development represents a dramatically new and challenging threat to NATO forces…. Similar concerns led the Reagan administration to adopt a more offensive naval posture, sending forces above the gap and into the maritime bastion of the Soviet Union. 

Excerpts from Naval Strategy: Northern Fights, Economist, May 16, 2020

The Nuclear Reactors Buried in the Deep Sea

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The Soviet Union used the waters east of Novaya Zemlya to dump reactors, spent nuclear fuel and solid radioactive waste from both the navy and the fleet of nuclear-powered civilian icebreakers. About 17,000 objects were dumped in the period from the late 1960s to the late 1980s. Most of the objects are metal containers with low- and medium level radioactive waste. The challenge today, though, are the reactors with high-level waste and spent uranium fuel, objects that will pose a serious threat to the marine environment for tens of thousands of years if nothing is done to secure them.

The reactors from the submarines K-11, K-19 and K-140, plus the entire submarine K-27 (in the Kara Sea) and spent uranium fuel from one of the old reactors of the Lenin-icebreaker have to be lifted and secured. Also, the submarine K-159 (in the Barents Sea) that sank north of Murmansk while being towed for decommissioning in 2003 have to be lifted from the seafloor, the experts conclude. A study report made for Rosatom and the European Commission has evaluated the costs of lifting all six objects, bringing them safely to a yard for decommissioning and securing the reactors for long-term storage. The estimated price-tag for all six will €278 millions, of which the K-159 is the most expensive with a cost of €57.5 millions. Unlike the submarines and reactors that are dumped in relatively shallow waters in the Kara Sea, the K-159 is at about 200 meters depth, and thus will be more difficult to lift.

Excerpts from Thomas Nilsen, Lifting Russia’s accident reactors from the Arctic seafloor will cost nearly €300 million, Mar. 8, 2020