A Sunken Cold War Nuclear Sub Is Leaking Radiation At Levels 800,000 Times Normal (gizmodo.com) 149
Using a robotic sub, a team of investigators has detected traces of radiation leaking from Komsomolets -- a Soviet nuclear submarine that sank 30 years ago in the Norwegian Sea. The recorded radiation levels are unusually high, but scientists say it's not threatening humans or marine life. Gizmodo reports: On April 7, 1989, while cruising at a depth of 380 meters (1,250 feet), a fire broke out in the aft section of Komsomolets, a Soviet nuclear-powered attack submarine out on its first patrol. Its captain managed to bring the beleaguered sub to the surface, but it sank about five hours later. All 42 sailors were killed in the incident, known as the Komsomolets disaster. The 120-meter-long (400-foot) nuclear submarine still rests some 1,700 meters (5,575 feet) below the surface of the Norwegian Sea, about 320 kilometers (200 miles) north of the Norwegian mainland.
And it's leaking radiation, according to a press release issued by Norway's Institute of Marine Research (IMR). The amount of cesium radiation leaking from the wreck is significant, at about 800,000 times the typical reading for the Norwegian Sea, but it "poses no risk to people or fish," according to a collaborative research team involving IMR and the Norwegian Radiation and Nuclear Safety Authority (DSA). A leaking radioactive sub certainly sounds scary, but this research suggests the wreck is not currently endangering the Norwegian Sea and outlying areas. Normally, radiation levels in the Norwegian Sea are at 0.001 Becquerel (Bq) per liter. Around the wreck, however, they are as high as 100 Bq per liter. For reference, the acceptable amount of radiation in food is 600 Bq per kilogram, as established by the Norwegian government in the wake of the Chernobyl disaster.
And it's leaking radiation, according to a press release issued by Norway's Institute of Marine Research (IMR). The amount of cesium radiation leaking from the wreck is significant, at about 800,000 times the typical reading for the Norwegian Sea, but it "poses no risk to people or fish," according to a collaborative research team involving IMR and the Norwegian Radiation and Nuclear Safety Authority (DSA). A leaking radioactive sub certainly sounds scary, but this research suggests the wreck is not currently endangering the Norwegian Sea and outlying areas. Normally, radiation levels in the Norwegian Sea are at 0.001 Becquerel (Bq) per liter. Around the wreck, however, they are as high as 100 Bq per liter. For reference, the acceptable amount of radiation in food is 600 Bq per kilogram, as established by the Norwegian government in the wake of the Chernobyl disaster.
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Didn't the Chernobyl miniseries teach you anything? BORON! Sand and boron!
Re: Easily solved (Score:2)
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Huh? It is under nearly a mile of water at 1700 meters. The world record dive was down to 323.35 meters in 2014 by Ahmed Gabr (https://en.wikipedia.org/wiki/Deep_diving). Someone only needs to break the world record by a factor of five to visit the wreckage. I expect the traffic of people wandering around that sub to be very light.
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A mile is about 1609.3 meters. So 1700 meters is NOT "nearly a mile", it's "more than a mile"....
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A mile is about 1609.3 meters. So 1700 meters is NOT "nearly a mile", it's "more than a mile"....
It's at sea. Maybe it was nautical miles. There's 1852m in a nautical mile.
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The radiation should be perfectly safe, IF your vessel capable of withstanding the pressure at 5700 feet depth. If you're not inside a vessel, then being 5700 feet deep will kill you approximately instantly, so you won't have time to get radiation sickness.
Re: Easily solved (Score:2)
I've drank water 15 times more radioactive for majority of my childhood and all of my teen years.
There is nothing to "solve" here. (Score:5, Informative)
5-600 becquerels per liter means that 5-600 nuclei are decaying in the said liter. Since this is water, it has about 20 moles per liter, which comes to about 1*10^24 molecules, or, roughly almost 3*10^24 nuclei. In other words, almost nothing is leaking, but it is RADIOACTIVE almost nothing, so it must be SCARY!
Re: There is nothing to "solve" here. (Score:1)
I came here to say the same. 100 Bq is tiny. A banana is around 15 Bq.
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What is amazing is how good we have become at detecting even minuscule amounts of radiation. You can now easily detect single decays with hundred ps time resolutions with electronics built from off-the-shelf components. Yay progress.
Re: There is nothing to "solve" here. (Score:5, Informative)
We should be thankful us mere civilians are even allowed to build and/or own devices that can detect radiation.
What is stopping you? There has never been any legal limit on building detectors. They are not even costly, you can whip up one (with low efficiency) from a $1 PIN diode and a good ($5) amplifier. Add a few more parts, and it will even work as a low energy spectrometer.
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It was a stupid proposal, but it seems it didn't get anywhere.
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"What is amazing is how good we have become at detecting even minuscule amounts of radiation. You can now easily detect single decays with hundred ps time resolutions with electronics built from off-the-shelf components. Yay progress."
In other news, the US army uses fake explosive detectors that don't work. Yay.
https://www.bbc.com/news/uk-29... [bbc.com]
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What science giveth, the greed taketh.
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>100 Bq is tiny. A banana is around 15 Bq.
K40 emits a different ratio and energy of radiation to Cs137. Decay modes and radiation types and energy matter more than anything. So we really don't care how much radiation a banana emits.
Re: There is nothing to "solve" here. (Score:5, Insightful)
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Re: There is nothing to "solve" here. (Score:2)
Re: There is nothing to "solve" here. (Score:5, Informative)
Actually, the thing that matters is the deposited energy. The deposited energy is equal to the absorption cross-section (the probability a particle emitted by a radioactive substance which went through you to be absorbed), times the number of decays, times the energy from a single decay that went in your general direction.
The becquerel gives you the number of decays, the so-called activity, which is very important. A gram of radioactive Cesium is much more dangerous than a gram of some slow-decaying substance because of its high activity, which makes you absorb a lot of energy simply because more particles go in your general direction and are absorbed by you.
What we know from the low activity is that the leak is really small. What we would like to know is whether this is a new development of whether the sub has been leaking at this rate since it sank.
Re: There is nothing to "solve" here. (Score:4, Interesting)
A banana is around 15 Bq.
Maybe, but this is a Russian war banana.
On a more serious level, the sub is probably made of steel, which is slowly eaten away. There are nice documentaries about what is left of the Titanic due to this decay. So the leak can be tiny now, but the sub remains a time bomb. But a nuclear one. I can imagine that there is a bigger problem if the reactor fuel is eaten away and dissolves in the sea.
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Oops, that should have been 5-600 nuclei per second ;)
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Journalists love the becquerel, because using this tiny unit, one decaying atom per second, makes every story of this kind so much more...radiationy!
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Well, I prefer Becquerels too, I rather not be around something that is measured in whole Curies.
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You mean, other than being completely around the other side of the world? Or the fact that they are measuring this next to the actual hull of a sunken nuclear submarine?
Oh yeah, I'm sure it's a cover story for a nuclear disaster three oceans away though. Good call.
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It even says all you need to know right in the summary:
" Around the wreck, however, they are as high as 100 Bq per liter. For reference, the acceptable amount of radiation in food is 600 Bq per kilogram, as established by the Norwegian government in the wake of the Chernobyl disaster."
100 Bq per liter in the water immediately around the wreck. A liter is 1kg. Acceptable levels for food that someone is going to eat by weight is 6x that. So pretty much a non-story, and the ZOMG!!! 800000x!!! is technically
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Nice headline (Score:5, Insightful)
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So it also contains an amount of an element that emits less radiation than what is already coming out. Still good to go.
That is a concern if someone tries to go down there and remove the warheads in order to sell / detonate them somewhere. And that's it.
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Plutonium is mainly an alpha emitter. So we won't be able to detect any radiation from them from outside the shell of the torpedo
https://www.pbs.org/wgbh/pages... [pbs.org]
Re:Nice headline (Score:4, Informative)
The story is that a Russian sub is now forcing Norway to monitor it indefinitely for leaks, a costly operation.
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What's untrustworthy about TFA? It says several times that the levels are not dangerous, and quotes one of the Norwegian scientists making the measurements saying it's not dangerous, and clearly explains that the level is six times below the government threshold and the material is being dissipated by the ocean.
Come on, we all know that headlines have been designed to be eye catching since the dawn of print.
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Eye catching is one thing. The kind of titles such as this story's is another.
These titles are crafted in such a way that they make you read the article out of fear, not out of curiosity or excitement. The emotional effect remains even after realizing there is nothing to be afraid of. To make an analogy, when you scare someone as a prank, it takes a fraction of a second for them to become scared, and minutes at least for them to go back to normal again, even if they realize in a second there's no actual dan
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This is starting to sound like an argument for suppressing news because it might be upsetting to people. I know you aren't going that far, but you are complaining about a fairly moderate headline in an article that is overall quite a decent explanation of the situation and the level of risk.
It's not like a Daily Mail article where 98% of it would be fear-mongering and then the last sentence would say "it's 1/6th the maximum level established as safe by the government".
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God forbid news should be suppressed. On the other hand, I despise misuse of data and retarded headlines.
Just analyze the title: "A Sunken Cold War Nuclear Sub Is Leaking Radiation At Levels 800,000 Times Normal"
There are so many things wrong in there, I wouldn't know where to begin.
- Radiation is emitted, not leaked. Radioactive material is leaked.
- "800,000 times higher than normal" means nothing if there is no frame of reference. Yesterday there were infinitely more bananas in my car than normal, what do
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Well in this case it is leaking. They collected samples and measured emissions from them, i.e. the material leaked from the sub into the water which was then collected and removed for analysis.
I agree that 800k times normal is just the usual clickbait stuff. But really, compared to the standard Daily Mail type stuff or the outright fabrications out there, this is extremely mild. Pick your battles, deal with the really bad stuff because you are never going to get much more than a few up-votes on Slashdot for
Re:Nice headline (Score:5, Insightful)
More like "Radiation below safe limits yet but the submarine already started leaking".
Re: Nice headline (Score:4, Insightful)
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Not sure what your rephrasing is attempting to capture.
Radiation is below safe limits.
The sub has been down for 30 years, and the amount of radiation leakage at any meaningful distance from the actual radioactive source is vastly below anything any human should give a shit about.
So what was your point, exactly?
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Radiation is below safe limits for now. The submarine has been down for 30 years and its internals have corroded enough for it to finally start leaking. Are you seriously expecting the corrosion to magically stop at the current levels?
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I'm only skimmed the article, but I'm not sure they know the difference between radiation and radioactive material.
Re: Nice headline (Score:2)
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I'm sure msmash will publish it.
Hmm (Score:2)
Translation (Score:1, Interesting)
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It's really not. Headline may as well have said "Elevated levels of radiation detected around nuclear sub wreck, showing containment still doing it's job."
If you are measuring the elevated radiation in un-prefixed Bq while talking about a big steel tube that happens to feature a hastily shut down nuclear reactor with all of it's waste products, then I think we're doing pretty good in comparison to the many worse scenarios that could be happening. Like the release of many TBq of fission products all at onc
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Yeah, I'm pretty sure that nobody looks at the Soviet Union as a role model for how to do things. Except maybe aspiring authoritarians like Putin.
There's a pretty large spectrum of "socialism" and you are cherry-picking the worst example as a straw man.
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Yeah, I'm pretty sure that nobody looks at the Soviet Union as a role model for how to do things. Except maybe aspiring authoritarians like Putin.
There's a pretty large spectrum of "socialism" and you are cherry-picking the worst example as a straw man.
Except perhaps Bernie. He will not criticize various soviet trained marxist despots who are still around. He visited the Soviet Union as a tourist during the Cold War. When Bernie describes himself as a "Democratic Socialist" he is literally using Marx's terminology. Bernie literally is a marxist, but probably not of the despot variety.
Moronic headline (Score:2)
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It is a good way to stop Russians from claiming the higher radiation has nothing to do with the sub.
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I was talking about the measurements and the original report, not the headline.
Basic web search... (Score:5, Informative)
Re:Basic web search... (Score:4, Funny)
Oblig - From What If by XKCD/Randall Munroe (Score:2)
May not apply to this situation, but should generally apply given the unit of measure is centimeters.
https://what-if.xkcd.com/29/ [xkcd.com]
Key sentence:
For the kinds of radiation coming off spent nuclear fuel, every 7 centimeters of water cuts the amount of radiation in half.
Why aren't we dropping spent nuclear fuel into deep ocean dead spots (not around thermal vents which have really cool and strange life forms)?
Oh, buy the book (What If), it's fantastic, I got it a couple of weeks ago!
Re:Oblig - From What If by XKCD/Randall Munroe (Score:4, Interesting)
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Why aren't we dropping spent nuclear fuel into deep ocean dead spots
Because while water is very good at attenuating radiation, it's also very good at dissolving all manner of materials, including uranium and its fission products. So once the container rusts through, uranium gets into the water.
Water being a liquid, it doesn't stay in one place. So the water with uranium dissolved in it, will spread out. Slowly perhaps, but it will get everywhere eventually.
Deep-sea dumping of nuclear waste was done until 1993 [wikipedia.org], when an international treaty ended the practice.
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The radiation doesn't penetrate the water very much, but radioactive particles could be transported by currents, or end up in the food chain.
Also, we may want to use the spent fuel at a later time.
What's normal for sunken cold-war nuclear subs? (Score:2)
Salvage Operation (Score:2)
Re:Salvage Operation (Score:5, Informative)
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Now tow the thing to the marianas trench and dump it there. THat way its under 6 miles of water instead of just one
Re:Salvage Operation (Score:4, Insightful)
A big ship, some deep-sea diving gear, a couple of colossal winches, and a metric fuckton of money.
And then they'd have a few hundred kilograms of U235. Note that the only bomb in history to use U235 was used on Hiroshima. ALL other nuclear weapons were made with Pu239, so what you recovered from the sub would basically be useful for...are you ready for this?...powering a nuclear reactor....
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the US had additional U235 gun-type bombs designed and deployed as late as the 60's.
Also it is possible to make an implosion type bomb with u-235 as well as plutonium (the other way round doesn't work though).
And in fact, now that centrifuge technology has matured, in countries that aren't swimming in plutonium (like the original "big 5" nuclear powers) spinning up a quantity 80%+ u235 out of u238 is seen as more practically achievable than all that is
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Actually, not as crazy of an idea as it sounds. Dump it in a subduction zone and it will be sucked into the bowels of the earth, not to be seen again for many millenia.
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Uh - "millenia"? Maybe a few millenia of millenia. Of course, a more likely possibility is that is sinks into the mantle like all the other radioactive heavy metals, and contributes a scintilla of extra heat to the internal heat of the earth. Only the relatively light subducted components rise back to the surface.
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...once you invent a container that can survive getting pulled under a tectonic plate.
Also, given the prevalence of volcanoes in subduction zones, it's not 100% clear that all the material would stay under the plate. We'd need to know more about the flow of the material as it gets chewed up and melted.
All sailors did not die (Score:3)
Almost all crewmen escaped the burning submarine when it surfaced, but 42 (most of the crew) died from hypothermia.
800,000 times more than normal? (Score:2)
Our water at home had 1500 bq/liter (Score:1)
I guess since the well was drilled I used it for about 15 years. My mother for longer.
Showered and drank it.
Pretty cool that leaking nuclear submarine water would had been safer.
Won't this thing break down eventually? (Score:2)
Rust through and leak out?