Slashdot Mirror
Will NASA Ever Recover Apollo 13's Plutonium From the Ocean
An anonymous reader writes "'Houston, we've had a problem,' said astronaut Jack Swigert on April 13, 1970. But the problem wasn't as simple as three astronauts potentially trapped in the void of space, 200,000 miles from Earth. The catastrophic risk came from the SNAP-27 radioisotope thermoelectric generator (RTG), a small nuclear reactor that was going to be placed on the moon to power experiments, carrying Plutonium 238 in Apollo 13's lunar module. As luck would have it, NASA had experience losing RTGs – a navigation satellite failed to reach orbit in 1964 and scattered small amounts of plutonium over the Indian Ocean. The SNAP-27 had been engineered to make it back to Earth intact in such an incident. The plutonium, like the astronauts, apparently survived reentry and came to rest with what remained of the lunar module in the Tonga Trench south of Fiji, approximately 6-9 kilometers underwater (its exact location is unknown). Extensive monitoring of the atmosphere in the area showed that no radiation escaped."
6Km under the ocean is probably the safest place for it.
It would take a lot of effort and money to disturb this sleeping dog. Why go to the trouble?
I read the internet for the articles.
Keepin' it in their back pocket to recover when a distraction is needed from some other larger screw-up.
In the early 1970s book "The Flight That Failed" by S.F. Cooper mentions as the spacecraft was approaching earth, someone (I think from the AEC) said they need to consider where the RTG will land. Ugh, there was already enough going on as crews were powering up the command module, a looming storm in the landing area, spacecraft attitude close to gimbal lock as it positions for re-entry. All this when many had very little sleep, then this guy brings up the RTG. Interesting book as it was written years before the fame brought on by the movie, also lots of esoteric details for techies.
mfwright@batnet.com
You mean radiation can't penetrate 6,000 meters of water? If you look at the decay chain of PU 238 they are all solid until you get to radon. And at 6000 m of water the pressure is enough to keep it a liquid and too dense to bubble up.That means all of the decay products will sit there in the water and decay protected by an equivalent shielding of 1000 ft of lead.
I love Jesus, except for his foreign policy.
The Plutonium 238 is suitable for RTG (radioisotope thermoelectric generator) but not for bombs.
Maybe this info will spare us most "nuke" posts (terrorist jokes, etc).
And if they can find it and retrieve it from 6km down they have earned it.
Is buying a Harley Davidson as your first motorcycle since you were 16 at age 49 a midlife crisis issue?
RTGs aren't nuclear reactors. They rely on the decay heat of the Plutonium 238 to generate electricity. There is no fission reaction taking place in an RTG.
Of course, that's not to say that Plutonium isn't nasty in and of itself.
http://en.wikipedia.org/wiki/List_of_sunken_nuclear_submarines and http://en.wikipedia.org/wiki/Lists_of_nuclear_disasters_and_radioactive_incidents.
find that Mark 15 H-Bomb they misplaced somewhere near the coast of Georgia?
http://en.wikipedia.org/wiki/1958_Tybee_Island_mid-air_collision
"To those who are overly cautious, everything is impossible. "
Now *anybody* with an extended deep sea vehicle, a few million dollars and a highly trained crew willing to risk their lives can get at it.
Nice going, slashdot!
What does that even mean? Anyway, if it was in the LEM, did the LEM even survive rentry? Since it had no heat shield, etc.? Is the LEM still attched to the CM during re-entry even? Pretty sure it's not.
Dude, I think I can see my house from here.
We used to just set off fission and fusion bombs in the air and on the ground, so I would kinda think the long term risk from a small amount of PU238 at the bottom of the ocean is not all that much in the grand scheme of things, especially since it may be completely contained.
Oh, and there may be a few people still walking around with similarly plutonium-powered pacemakers in their chests...
http://www.theodoregray.com/periodictable/Samples/094.3/index.s12.html
http://www.orau.org/ptp/collection/miscellaneous/pacemaker.htm
G.
I always wondered whether or not recovering this would be viable, but I wasn't sure since I know next to nothing about nuclear physics if this plutonium (Pu) could be used to make a bomb. Still, I guess it could be used for a dirty bomb.
When Cassini was launched I figured that (if the plutonium was the right kind), Saddam Hussein (remember him?) might be very interested in getting a hold of the 70(!) lbs. of Pu on board. Cassini was scheduled to do a flyby (gravitational assist) using the earth, passing overhead at an altitude of 800 miles I think, and it would be easy to redirect it so that it would instead impact the earth almost anywhere, say for example the Iraqi desert. Since the RTGs carrying the plutonium were specifically designed to handle the most horrific accidents like an explosion on launch or reentry, I figured that all Saddam had to do was get control of Cassini.
He (or rather his minions) wouldn't need to control Cassini for a long period of time. All that would have to be done would be to make the appropriate course correction WHILE USING UP ALL THE FUEL. Then even if NASA (or most likely by then the CIA) wrested control back of Cassini, they could only watch helplessly while Cassini plummeted back to earth into Saddams greedy little hands (and into a James Bond like action movie as MI-6 tried to recover it).
I actually knew the senior flight control engineer on Cassini at the time and asked him if anyone had offered him a couple of million dollars to make this happen. He laughed and said of course not and there were safeguards to prevent this from happening but then told me not to tell anyone about this idea. (Maybe he was afraid of someone making him an offer he couldn't refuse). Now that Cassini is safe orbiting Saturn, New Horizons is out of the inner solar system and MSL is on its way to Mars I guess it's okay to talk about it now! (All these probes have plutonium filled RTGs).
Anyway, the other point that the summary makes is that with undersea technology now getting robust and cheap enough for non-governments to afford it, there are other nuclear prizes in the deep sea. Like what about the Thresher which even if it wasn't carrying nuclear warheads, certainly had a huge amount of nuclear fuel in its reactor? Or even more to the point how bout the nuclear sub the CIA tried to lift in the 70s using Howard Hughes and the Glomar Challenger as a cover? That sub WAS carrying nuclear warheads and that was the part of the sub they were unable to recover. (There are lots of other nukes lost at sea, I'm sure Google or Wikipedia can enlighten you).
So if Al-Qaeeda starts developing undersea technology, you know what they're after. Or maybe they'll just use it to smuggle drugs like the south american drug cartels are doing.
This is a Radioisotope Thermal Generator (RTG) see http://en.wikipedia.org/wiki/Radioisotope_thermoelectric_generator (wikipedia). It produces heat via radioactive decay. It is not in any way, shape, or form, a "reactor." It cannot go critical, there is no neutron production, and no fissile material even remotely relevant for nuclear bomb production. Pu238 (active ingredient) decays via alpha emission. The alpha particles are completely contained by anything including a birthday balloon. The plutonium itself is (by design) contained by a steel vessel, and they've demonstrated that those don't have trouble with splashdown and extended submersion.
The biggest danger it posed was hitting somebody on the head when it fell.
Something new is stirring itself there, something enormous and hideous.
The Russian Mars-96 probe never left orbit and dumped 200 grams of Plutonium 238 over Bolivia, none of which has been recovered...at least no one is talking about it. Some of this Plutonium 238 was in ground penetrators that were designed to survive atmospheric entry and impact so it is probably still out there unless someone has quietly snatched it up. http://en.wikipedia.org/wiki/Mars_96#Fate_of_the_plutonium_fuel
Not if the mermen militarise the plutonium and use it against the land people.
They're vicious SOBs down there.
This may be a joke, but it is worth pointing out that the Plutonium used in RTGs is not fissile, and can't be used to make bombs. Pu-238 is only useful for RTGs. The isotope used in bombs is Pu-239, which is a common product of Uranium based reactors.
Producing Pu-238 is actually very difficult, as described in the above link. Unfortunately, the worlds supply is dwindling, and this endangers many upcoming space missions. One attractive option for creating more is to use Liquid fluoride thorium reactors, where Pu-238 is one of many useful products created.
Rather, it's the SNAP reactor buried in an avalanche at the headwaters of the Ganges river.
Autumn 1965
Advice: on VPS providers
The snap-9a accident was not a small leak.
http://en.wikipedia.org/wiki/List_of_military_nuclear_accidents
Indeed NASA (in the 1995 Cassini FEIS)[35] indicated that the SNAP-9a plutonium release was nearly double the 9000Ci added by all the atmospheric weapons tests to that date.[40][41]
1 pCi exposure typically will kill in 10^-8 of cases, but there were 9000^12 pCi dispersed by SNAP9. You can take any view you like about how many of them have actually been exposed to humans.
--------------------------------------------- "In the end, we're all just water and old stars."
GODZILLA!
-- I ignore anonymous replies to my comments and postings.
It all sounds kind of fishy to me.
Oh, c'mon. Would you rather I said, "Really rad, man!"
Cheers!
Please do not read this sig. Thank you.
Embedded in the body http://www.orau.org/ptp/collection/miscellaneous/pacemaker.htm
They just need to ask Aquaman to go get it.
No, no, you're not thinking; you're just being logical. --Niels Bohr
OMG! 200 grams? That's like... not going to worry about it.
Thanks for the link! I've been meaning to purchase a teenage girl.
How has the recovery and development of this plutonium into a weapon NOT been featured as the plot of a James Bond movie?
Who cares? It is no threat. It can't be detected otherwise it would have been found. It posses no real threat to anything unless you believe Godzilla and the other Japanese monsters are real. Get a life!
...Aquaman, or perhaps Namor!
I was visiting with my wife's high school friend this past weekend and we went over to her parent's house to chat. I've always known that he was part of some government agency (he's now retired) and worked on space stuff but never really knew what he did. He was an electrical engineer and besides developing lighting systems for government buildings he also worked on electrical systems of some of the satellites and space vehicles so he mentioned the plutonium heat source surrounded by thermo-couples to provide energy to all this stuff in the absence of sunlight for the solar panels. They needed to last a long time so a half-life of 80 years worked well. He even mentioned one that fell into the Pacific. Listening to him describe his zombie proof working environment was pretty cool too.
Why was this modded down? It is the most level headed comment on this thread so far.
I wonder how many terrorists we can get to drown themselves trying to retrieve it?
I'm seriously not worried about terrorists retrieving it that far underwater.
"We used to just set off fission and fusion bombs in the air and on the ground"
And under the sea. . .
The plutonium, like the astronauts, apparently survived reentry and came to rest with what remained of the lunar module in the Tonga Trench south of Fiji, approximately 6-9 kilometers underwater
Those poor, drowned bastards...
I'm a nuclear engineer.
These things are not cheap. We have recovered one from the ocean floor before to fly it on a later mission. (albeit, the relative shallows of the florida coast.) If its possible to build a remote sub that could find it, I would bet the cost of recovery would be less than the cost of manufacture. (radar, sonar? how many right angles are on that thing? HOW would you find it?)
Its not dangerous. PU-238 cannot be used to make weapons.
Ref:
http://www.ne.doe.gov/space/neSpace2c.html
---
SNAP-19B2
Nimbus-B-1
Meteorological
18-May-68
Status: Mission was aborted because of range safety destruct. RTG heat sources recovered and recycled.
---
It's not actually that dangerous to either breathe in or eat, surprisingly. You need about half a gram per person to cause 1 cancer event per person, on average. Even if the plutonium there was divided up and eaten directly by a group of people when its container fails (estimated at 800 years from now, or 8 half-lives for 3.3 kg of Pu), the maximum number it would kill (statistically) is about 28. Not very dangerous.
One reason is that only the barest fraction is absorbed when ingested. And many plutonium workers have been exposed to breathing in plutonium dust accidentally, and their cancer risk didn't budge over many decades.
yes, we need to post the GPS coords and a bogus schematic for a dirty bomb on trrrst websites, then watch them all drown themselves.
http://en.wikipedia.org/wiki/Red_mercury
Not all terrorists are gullible, but I have a feeling that enough are that it is worthwhile to cull them out.
"The catastrophic risk came from the SNAP-27 radioisotope thermoelectric generator (RTG), a small nuclear reactor that was going to be placed on the moon to power experiments.."
Umm no, the risk had nothing to do with the generator. It had nothing to do with the word nuclear in general. The title is a bunch of BS made to get attention. the biggest risk from the reactor would pretty much be if it happened to have had landed in your house and crush you. In no way as the potential disaster related in any way to the nuclear reactor it carried on board.
people need to get the fuck over the word nuclear. I'd rather have nuclear power than coal.
whatever, most people are stupid. but these types of article headlines are why people are so afraid of nuclear power, even though it's probably the safest.
Plutonium has a half life of 25000 years. It radiates a little more than steel. You can hold it in your hand, or even swallow a small piece of Plutonium. It will have no effect on you. The only danger a small piece of Plutonium presents is that it may be classed as a choking hazard to Americans.
Excuse me, but please get off my Pennisetum Clandestinum, eh!
People also forget that the oceans are 3 parts per billion Uranium. So that column of water 1x1x6 km deep on top of the sunken RTG contains 18 tons of Uranium. Kind of puts it in perspective.
The Pu-238 in the atmosphere from weapons tests (about 3.3 x 10^14 Bq [9,000 Ci]) was increased by the 1964 reentry and burnup of a Systems for Nuclear Auxiliary Power (SNAP)-9A RTG, which released 6.3 x 10^14 Bq (17,000 Ci)
Your claim made it seem that the RTG burnup doubled the curies of radioactive material in the atmosphere vis-a-vis atmospheric weapons testing. Rather, this doubled the amount of Pu-238 — an isotope which is considered a contaminant/impurity in a nuclear weapon and therefore be expected to be released in very small amounts via atmospheric nuclear weapons tests.
Ah, here we go:
Figures from the United Nations put the total bomb radiation from decades of atmospheric testing at almost 70 billion curies.
Yeah, this and other sources just go to show that this event was quite minor compared to all the other stuff going on at the time. About 6 orders of magnitude smaller, that is.
So, if you claim that this 17,000 Ci release might have had severe effects (per you):
At the top end we are talking 200 million human deaths from cancer due to that accident.
...then I suppose that all that atmospheric testing might therefore cause, "at the top end", 824 trillion human deaths from cancer!
...or maybe the SNAP-9a release really was a minor incident after all. You might want to consider that. Occam's Razor and all.
Oh no! I just looked inside Schrodinger's box and found out that the entire human race has all been killed 120,000 times over by the scary atmospheric weapons testing fallout back in the 1960's! The quantum wave function just hadn't collapsed until I ran the calculations that determined we're all supposed to be dead!
a 500 foot tall prehistoric monster slumbers, bathed in deadly radiation oozing from the nearby module, and transforms. It shifts as it sleeps, and rolls over onto the blocky module, which awakes it. Annoyed, the monster rises to the surface, then towards land, towards a sleeping Japan, unaware of the newest and greatest calamity about to visit them:
GODZILLA! ( and worse, with the cheezy Raymond Burr splices added in )
This is my sig.
to hear people talk about terrorists as if their actions are always perfectly reasonable
if their actions were always perfectly reasonable, the surprise killing of civilians wouldn't be on their todo lists
don't assume the motives and thought processes of people to whom mass murder makes sense is plausible and predictable
assume they'll do rash, unreasonable, and stupid things. because they already are
intellectual property law is philosophically incoherent. it is your moral duty to ignore it or sabotage it