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Without Plutonium, Deep-Space Probe Missions May Sputter Out

Posted by timothy on from the not-much-to-go-on dept.

cold fjord writes with this excerpt from Wired: "Most of what humanity knows about the outer planets came back to Earth on plutonium power. ... The characteristics of this metal's radioactive decay make it a super-fuel. ... there is no other viable option. Solar power is too weak, chemical batteries don't last, nuclear fission systems are too heavy. So, we depend on plutonium-238, a fuel largely acquired as by-product of making nuclear weapons. But there's a problem: We've almost run out. 'We've got enough to last to the end of this decade. That's it,' said Steve Johnson, a nuclear chemist at Idaho National Laboratory. And it's not just the U.S. reserves that are in jeopardy. The entire planet's stores are nearly depleted. ... what's left has already been spoken for and then some. ... Political ignorance and shortsighted squabbling, along with false promises from Russia, and penny-wise management of NASA's ever-thinning budget still stand in the way of a robust plutonium-238 production system." The plutonium shortage has been deepening for a long time, leading to some creative solutions. The Wired article alludes to the NASA project underway to create more, but leans toward gloom.

26 of 268 comments (clear)

  1. 1985 by jimmydigital · · Score: 5, Funny

    I'm sure that in 1985, plutonium is available in every corner drugstore, but in 2014, it's a little hard to come by.

    --
    Every normal man must be tempted, at times, to spit on his hands, hoist the black flag, and begin slitting throats. -HLM
    1. Re:1985 by Voyager529 · · Score: 5, Funny

      This is where Mr. Fusion would really come in handy.

      I beg to differ...unless you happen to be aware of a stash of beer cans and banana peels in space.

  2. Upside by ZombieBraintrust · · Score: 4, Insightful

    We are no longer creating bombs for a nuclear apocalypse.

    1. Re:Upside by Baloroth · · Score: 5, Informative

      Pu-238 isn't usable for nuclear weapons. The only use to which it is put is power generation. The only connection between Pu-238 and nuclear weapons, in fact, is that weapons production facilities naturally make good production facilities for Pu-238.

      --
      "None can love freedom heartily, but good men; the rest love not freedom, but license." --John Milton
  3. Re:Why are nuclear fission systems too heavy? by mark-t · · Score: 5, Informative

    Mass doesn't disappear just because something is in outer space. That mass carries with it a certain amount of inertia, and the heavier something is on earth, the more energy will be required to manipulate it with any kind of acceleration, even in space.

    --
    File under 'M' for 'Manic ranting'
  4. Re:Why are nuclear fission systems too heavy? by fuzzyfuzzyfungus · · Score: 5, Informative

    Launch price.

    Shoving something out of ye olde gravity well is always expensive, if you go over the weight/size limit of one of the reasonably-commodified launch systems, things go from 'expensive' to 'heroically expensive'.

    Depending on exactly what trajectory you have in mind, a more massive craft may also require more fuel/more powerful thrusters if you are making any course corrections along the way.

  5. Just watch the movie UHF by adric22 · · Score: 5, Funny

    Apparently Philo gives the secret of how to make plutonium from common household objects.

  6. Re:Why are nuclear fission systems too heavy? by gstoddart · · Score: 4, Insightful

    Likely because they need to be wrapped up in so much stuff so they're not killing everyone nearby.

    And as far as I recall, you essentially need lead to block the radiation.

    --
    Lost at C:>. Found at C.
  7. Another reason to build LFTRs by Anonymous Coward · · Score: 5, Interesting

    One of the helpful byproducts of a Liquid Floride Thorium Reactor (LFTR) is Pu-238

    Source: http://flibe-energy.com/?page_id=64

  8. Re:Why are nuclear fission systems too heavy? by ackthpt · · Score: 5, Funny

    Mass doesn't disappear just because something is in outer space. That mass carries with it a certain amount of inertia, and the heavier something is on earth, the more energy will be required to manipulate it with any kind of acceleration, even in space.

    Avast, ye swab, once ye space corsair be a'sail in deep space, it be carried along on it's momentum as thar be little friction in a vacuum. Life support, unless ye enjoy sippin yer tea at 4 K, be yer greater concern. Also, ye be needin' a wee bit o' energy for changin the tack of yer corsair. Arr. ox)P-)

    --

    A feeling of having made the same mistake before: Deja Foobar
  9. rather sensationalist by rubycodez · · Score: 4, Informative

    there are alternative isotopes, with much longer half lives even if battery weight is three or five times what a pu-238 one would be. not the heaviest thing in a spacecraft...anyway, the equipment to make the pu-238 exists, just a matter of getting serious about making the stuff

    1. Re:rather sensationalist by mirix · · Score: 4, Informative

      The Russians always used strontium 90. Slightly lower heat output and shorter (~30 vs ~90 yr) half life. Much cheaper.

      Of course the reduced half life means power will drop off sooner, but I'd think thermocouple aging factors weigh more heavy anyway (for the first decade or two, at least). Maybe not?

      So for long missions You'd want something else, I guess.

      --
      Sent from my PDP-11
    2. Re:rather sensationalist by Xyrus · · Score: 4, Informative

      There are other isotopes that have longer half-lives, but they are not alternatives.

      In order to be a decent RTG power source, and isotope needs to have:

      1. Good power density
      2. Good half-life
      3. Require little to no shielding

      Plutonium 238 is the ideal fuel because it is the best (or close to it) in all three categories. Strontium-90 has a much shorter half-life and lower decay energy. Polonium-210 has a high power density but comes at the cost of an extremely short half-life (138 days). Curium-242/244 is a gamma and neutron emitter so requires heavy shielding.

      The only reasonable alternative at this time is the same material they put into smoke detectors: Americium-241. It has a much longer half-life than plutonium, however due to that half-life it only has about 1/4 of the power density. It does emit more penetrating radiation but doesn't require a lot of shielding.

      --
      ~X~
  10. Voyage To The Bottom Of The Sea. by gallondr00nk · · Score: 4, Funny

    By 2005, according a Department of Energy report (.pdf), the U.S. government owned 87 pounds, of which roughly two-thirds was designated for national security projects, likely to power deep-sea espionage hardware.

    What on earth do they need deep sea espionage for? Are they trying to spy on Cthulhu or something?

    1. Re:Voyage To The Bottom Of The Sea. by RevDisk · · Score: 5, Informative

      Tapping undersea cables.

  11. Re:112 tonnes enough? by Virtucon · · Score: 4, Funny

    Wrong Plutonium! We need US Plutonium which uses a different plug configuration and is only 120V, not that funny 204V stuff you use in the UK you insensitive clod! Shit, NASA would have to buy like one of those travel adapters or something to make UK plutonium work in NASA probes and that would probably like throw off the gyroscopes or something.

    --
    Harrison's Postulate - "For every action there is an equal and opposite criticism"
  12. Re:112 tonnes enough? by compro01 · · Score: 5, Informative

    That's the wrong kind of Plutonium. RTGs need Plutonium-238. That stockpile is Plutonium-239, 240, 241, and a bit of 242.

    --
    upon the advice of my lawyer, i have no sig at this time
  13. Re:Why are nuclear fission systems too heavy? by vjoel · · Score: 5, Funny

    >it's

    Land-lubber.

    Twasn't an apostrophe, ye dog. It be the stray mark of a sharp cutlass.

    --
    What part of `yes no` don't you understand?
  14. Re:Why are nuclear fission systems too heavy? by CrimsonAvenger · · Score: 5, Informative

    I don't know anything about them, but I have to ask why anything is too heavy in space? Is it too heavy when assembled on earth?

    A very long time ago I was in the Navy, sailing about in a nuclear submarine.

    The power plant of that submarine outmassed the ISS.

    --

    "I do not agree with what you say, but I will defend to the death your right to say it"
  15. Re:Why are nuclear fission systems too heavy? by ShanghaiBill · · Score: 4, Informative

    But I should think the minimum safe distance from an unshielded reactor would preclude anybody actually getting near enough the spacecraft to prep it for launch.

    A fission reactor that has been assembled, but never operated, does not produce much radiation. Enriched uranium and/or pure plutonium are not particularly dangerous (unless inhaled or ingested). It is the fission byproducts from actually operating the reactor that are dangerous. Even this minimal radiation could be avoided by using temporary shielding that is removed (possibly by a robot) immediately before the launch.

  16. I thought they restarted production back in March by charnov · · Score: 4, Informative

    I thought NASA struck a deal with DOE back in March to do 2 kilos per year of Pu-238 back in March. Did it get de-funded or something? http://www.universetoday.com/100875/u-s-to-restart-plutonium-production-for-deep-space-exploration/

    --
    [RIAA] says its concern is artists. That's true, in just the sense that a cattle rancher is concerned about its cattle.
  17. Re:Ready supply by CrimsonAvenger · · Score: 4, Insightful

    Pu-238 is NOT "weapons-grade", and Pu-239 (which is) is NOT a useful substitute for Pu-238.

    --

    "I do not agree with what you say, but I will defend to the death your right to say it"
  18. Re:Why are nuclear fission systems too heavy? by ShanghaiBill · · Score: 4, Informative

    WHAT WOULD HAPPEN?

    The reactor would mostly likely fall into the ocean, where it would be retrieved intact. RTGs are designed to survive a launch failure, and several accidents have
    already happened, without any significant release of radiation.

  19. Re:Why are nuclear fission systems too heavy? by cpt+kangarooski · · Score: 4, Interesting

    Probably not; a sub's reactor would likely depend on the presence of the ocean for part of its cooling system (cooling is always a big problem in space -- basically it can only be done with radiators, which isn't very efficient), and is surely way overpowered for most missions.

    The US and Russia have sent up actual reactors before. The US had SNAP and the USSR had BES.

    But you really don't need nuclear power sources at all unless you're either far from the sun (beyond the orbit of Mars, usually), have serious power needs that modern solar power isn't sufficient for (the recently landed Curiosity rover on Mars uses an RTG for main power), or need heat to keep systems from getting too cold (the solar powered Mars rovers had small RTGs in them for heating purposes, IIRC).

    --
    -- This and all my posts are in the public domain. I am a lawyer. I am not your lawyer, and this is not legal advice.
  20. Re:Irresponsible by rahvin112 · · Score: 4, Insightful

    That big yellow ball in the sky is emitting more radiation than that little chunk of P238. You might not be aware of this but without the earths magnetic field and atmosphere in the way that little ball of light would kill you very very quickly.

    As others have already noted that P238 isn't really dangerous unless you are going to eat it. Though plutonium is believed to be an entirely a man-made material uranium and all the other naturally occurring radioactive elements exist outside the earth as well as on it. The several ounces on a space probe used as a thermolytic generator is insignificant entirely.

  21. Re:Irresponsible by cbhacking · · Score: 4, Insightful

    See, this is why people who don't understand radiation shouldn't talk about it.

    4.5 billion years of half-life means that the decay rate - the actual process that emits radiation - is so absurdly slow that the material itself is just not dangerous. The dangerous stuff is, almost by definition, the stuff with *short* half-lives. A gram of material with a millisecond half-life will release more radiation in one second than a kilo of U-238 will in a century, assuming they undergo the same types of decay. Secondary decay of the uranium will be a bigger problem, and still not much of one.

    In fact, people have incorporated U-238 into everything from building bricks for houses to the glaze on pottery. Let me make that clear for you again: people have built houses out of material containing uranium ore. They have then lived out their natural lives - and sometimes the lives of several generations of a family - in those houses.

    Calling it "spewing poison" is bullshit of the first degree. It's probably more dangerous to eat bananas (which contain radioactive potassium isotopes, in tiny amounts, but with much shorter half-lives) than it is to have U-238 all around you. Even pure, enriched U-235, while not something you'd want to hold in your hand, is not particularly dangerous to handle so long as you keep it away from neutron guns or reflectors, and below critical mass.

    --
    There's no place I could be, since I've found Serenity...