Salvaging the Cold War's Sunken Nuclear Subs

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0:00There are about 150 nuclear submarines operating today.

0:03They spend a lot of time underwater,

0:05but surface when they need to.

0:07…Or at least they’re supposed to.

0:09Sometimes subs end up permanently submerged.

0:12After all, accidents can happen.

0:14And this presents a bit of an issue.

0:16A nuclear reactor isn’t a great thing

0:18to just leave out in the wild.

0:20So there have been some efforts to recover these

0:23wrecks before they become a bigger problem.

0:25But getting a nuclear reactor off the

0:27ocean floor turns out to be kind of hard!

0:30Here’s how scientists and engineers rescue

0:33nuclear subs when things go very, very wrong.

0:37[♪INTRO]

0:40While there are a lot of nuclear submarines

0:42in the world, the number of known nuclear

0:44submarine wrecks is, thankfully, much lower.

0:47The US currently has two lost nuclear subs,

0:50the Soviet Union lost four, and the Russian Navy two,

0:53for a grand total of eight.

0:54So you can count them on your hands.

0:56But still, it’s a lot when you consider all the nuclear waste on board.

1:00A sub’s nuclear reactor is essentially a miniaturized

1:02version of the reactors at big power plants.

1:04It uses heat from radioactive fuel to boil water into steam.

1:08That steam spins a turbine, which is how the propellers move.

1:11It’s also how they get electricity.

1:13And this isn’t the only nuclear thing on board.

1:15In addition to the reactor, a submarine may be

1:18carrying some spent nuclear waste as well as nuclear

1:22weapons in the form of missiles or torpedoes.

1:25Now, normally these are all sealed up nicely.

1:28You can stand right next to all of them and be fine.

1:31But, normally, the sub is not a wreck at the bottom of the ocean.

1:34Whatever happened to sink the sub like

1:36a fire or explosion or something can crack

1:39open the reactor or the other equipment.

1:41Even if the reactor does survive the incident intact,

1:44the slow corrosion of salt water can open up that metal shell.

1:48In any of these cases, it can result in radioactive atoms,

1:51also known as radionuclides, being released into the water,

1:55spreading and contaminating whatever’s nearby.

1:57This is something we don’t really want to happen,

2:00so different countries have been monitoring

2:02these wrecked nuclear submarines for years.

2:04The US monitors their two wrecks,

2:06the Thresher and Scorpion, for example.

2:09And Russia and nearby countries like Norway

2:11have been monitoring the ones near them.

2:13They send boats out to take samples of the seawater or sediment

2:16around the wrecks to see how much radioactivity there is.

2:18So far, the data that we have access to suggests that,

2:21while some radionuclides are getting out from

2:24at least a handful of these wrecks, it’s not a lot.

2:27At least as of 2012, the Soviet submarine

2:29known as K-27’s radiation leakage was negligible.

2:33According to Russian research, levels of radionuclides

2:35around another Soviet sub, K-159, are elevated,

2:39but not enough to be of real concern right now.

2:41And a third, K-278, leaked.

2:44But not enough to be of huge concern to the Norwegians.

2:47So that’s something to be thankful for. …For now.

2:50I guess, at least.

2:52It could still become a problem in the future, though.

2:54Further corrosion can create new leaks.

2:56And something could jostle the remaining nuclear

2:59material in such a way to throw it out of control.

3:02See, a working nuclear reactor depends on its fuel rods being

3:05arranged in a certain shape to keep the reaction hot but not too hot.

3:09But if, say, some part of the sub were to collapse, the fuel could get

3:14jumbled together, start to react way too fast and get way too hot.

3:18However unlikely, this could lead to a meltdown.

3:21Which is bad, we don’t want one of those.

3:24But even without a big explosion, a new crack in

3:26the shell releasing previously radioactive stuff into

3:29the ocean could still have significant effects.

3:31A 2017 paper, for example, examined what would

3:33happen if there was a big leak with the K-27.

3:36They predicted how far currents might carry the radioactivity,

3:39based on computer models of water and ice movement.

3:42They also predicted how much this would affect

3:44the environment and people living near the wreck,

3:46based on models of the food chain and

3:49estimates of how much seafood people eat.

3:51Their results suggest that it could contaminate fish

3:54in the area to the point where people who rely on

3:56subsistence fishing may not be able to catch and eat them.

3:59But pretty much only that population,

4:01and it might not even be a problem for them.

4:03But if it is, it’s thanks to phenomena known

4:05as bioaccumulation and biomagnification.

4:08Even though the amount of radioactive material

4:10in the water would end up relatively small,

4:13if little critters like fish or plankton ate it,

4:16those radionuclides would stick around in their tissue.

4:19That’s bioaccumulation.

4:20Then, as creatures higher up the food chain ate those critters,

4:24they would become radioactive, and on and on.

4:27And because you need a lot of little fish to feed one big fish,

4:30the higher up the food chain you go, the greater the dose ends up.

4:34That’s biomagnification.

4:36Even if some of the fish would technically be safe to eat,

4:38the scare of radioactivity could still be

4:41a disaster for fishermen in the area.

4:43Like, if you were at the grocery store, would you eat the

4:47fish that were caught next to the radioactive submarine?

4:50Or would you maybe go ahead and buy the another different fish?

4:54This isn’t a hypothetical question.

4:56After the Fukushima nuclear disaster,

4:58Japan suspended fishing in nearby

5:00waters over contamination concerns.

5:02And eventually, when they started discharging treated wastewater,

5:06China straight-up banned fish from the area.

5:08So we have to clean up these wrecks.

5:12Maybe we put the EPA on the job,

5:13or the International Atomic Energy Agency.

5:15…Or the CIA.

5:17We went with the CIA.

5:18In 1968, the Soviet sub K-129 sank in the Northern Pacific Ocean.

5:23By 1970, the CIA’s engineers had a plan to retrieve

5:26it through a scheme called Project Azorian.

5:29This secret six-year mission was really an effort to gain

5:32intel on Soviet military capabilities during the Cold War,

5:36not the US cleaning up an accident out of the goodness of their hearts.

5:40Which is why the CIA took the helm.

5:43Though, as a bonus, it would clear the

5:45water of dangerous nuclear waste…

5:47if done right.

5:48The thing is, there was no protocol for the right way

5:51to steal your enemy’s sunken nuclear submarine.

5:54So CIA engineers determined that the best way to

5:58remove this nuclear waste was to play the world’s

6:01riskiest claw machine game, building what was

6:04essentially a giant grabber on a ship.

6:06And if anyone asked why this boat needed a

6:08giant grabber out in the middle of the ocean,

6:10the cover story was that it was a vessel for deep sea marine research.

6:14This is going to be great for science.

6:15Nobody ever thinks scientists are secretly CIA agents

6:18because of stuff like this.

6:19Unfortunately, the claw device they built for the job was just

6:22about as effective as the claw machines that you’re familiar with.

6:25It brought the sub about halfway up before

6:27the sub broke apart and most of it,

6:30including the engine room and presumably the reactor,

6:33fell back into the depths.

6:34The CIA retained the portion that didn’t fall.

6:37And while they didn’t get the intelligence they wanted,

6:39they still called it a success.

6:41Which I disagree with.

6:43Not the resounding success they were hoping for,

6:45but they did also reportedly get two nuclear torpedoes,

6:49so I guess it cleaned up some of the waste,

6:52and also gave them some intel.

6:53That might be the most dramatic example of a sub retrieval,

6:56but there have been others.

6:58In 2001, most of one Russian submarine,

7:00the Kursk, was retrieved.

7:02This time, they wouldn’t let it slip through their giant metal claw fingers.

7:06They drilled holes through the hull and put grippers through the holes.

7:10And I said most of it was retrieved because they basically

7:13opted to avoid some of the Project Azorian troubles entirely

7:17by not even trying to retrieve the forward section of the sub.

7:21They had legitimate reason to be worried that it would break off and

7:24destabilize things as they were lifting up the sub.

7:26So they left it behind.

7:28Sometimes it's just better

7:29to leave your mistakes in the past.

7:31In another rescue, an American sub called the USS Guitarro had

7:35the “good fortune” to sink in a shipyard as it was being built.

7:39Which is nice because probably not as many people died.

7:42The water was shallow enough that the top

7:44bit still stuck out of the water next to the pier.

7:47So they could just temporarily dam the area,

7:49then pump all the water around it out,

7:52which let them go fix the problem and refloat it.

7:55And right now, Russia is constructing their own specially made vessel

7:58to recover K-27 from the Kara Sea and K-159 from the Barents Sea.

8:03The Kara Sea is part of the Arctic Ocean,

8:05and has already been used as a dumping ground for nuclear waste.

8:09So the Soviets figured it was the perfect

8:10place for a known radiation threat: K-27.

8:13K-27 had an on-board nuclear reactor leak,

8:16which killed nine crew members from radiation poisoning.

8:19Thankfully, since the Russian Navy knew it was a nuclear problem,

8:22they had the foresight to fill the reactor with

8:24tar before sinking it so that it would be more stable.

8:29However, that fix is only designed to last until 2032,

8:34which is shockingly soon so,

8:36so they're going to have to do something about it.

8:38Researchers considered entombing the sub where it was in concrete,

8:42but decided that the additional pressure on the reactor from all

8:44that weight might actually raise the risk of an explosion.

8:48So, yes, please bring that up and do something about it.

8:51Meanwhile, the K-159 wasn’t originally

8:53supposed to be sunk like the K-27.

8:56But it got so rusted between decommissioning and attempted

8:59deconstruction that it fell apart when they tried to move it.

9:02It sank along with 800 kg of nuclear fuel.

9:06Whoops! Just... little woopsie

9:08K-159’s hull is too fragile to just lift it up.

9:12And a hole in the hull rules out pumping in

9:14air or balloons to raise it to the surface.

9:17So the rescue team plans to have a pair of barges lower down giant,

9:22curved grippers that get a hold of the whole thing at once.

9:26Then they’ll lift it up enough to slide a submersible

9:29platform underneath it for further support before bringing

9:33the whole kit and kaboodle up to the surface.

9:35Hopefully, they’ll be more successful than many

9:37of our previous attempts to do this kind of thing.

9:40Sunken nuclear submarines can’t stay on the ocean floor indefinitely.

9:43I mean they can, but shouldn’t.

9:46But it’s quite a challenge to remove them.

9:48While few seem to be immediate dangers,

9:50lost subs are still liabilities to the local environment

9:53and the people around them.

9:54And that’s not even considering new nuclear weapons that could

9:57also leave nuclear reactors sitting at the bottom of the ocean.

10:00So maybe our best scientists and engineers need to log

10:03some hours at the local arcade with the claw machine.

10:06This video was made possible by the Outrider Foundation,

10:09an organization that supports multimedia storytelling

10:11about nuclear threats and climate change.

10:14To learn more, head to outrider.org

10:16[♪OUTRO]

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Salvaging the Cold War's Sunken Nuclear Subs

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