The Coming Uranium Crisis

tcd004 writes "MIT reports that the world is running out of fuel for our nuclear reactors due to production limitations and an aging infrastructure. Nuclear power has gained popularity as a carbon-free energy source in recent years, but Dr. Thomas Neff, a research affiliate at MIT's Center for International Studies, warned that fuel scarcity could drive up prices and kill the industry before it gets back on its feet. Passport has pulled together some interesting numbers: there are 440 reactors currently in operation and 82 new plants under construction. The demand for fuel has driven the price of uranium up more than 40% in the last few months — 900% over the last decade. You can follow the spot price for a pound of uranium. "

Yeah

[voice_of_all_reason (926702)]

But they have free Super Saver Shipping, so it balances out.

Re:Yeah

[Rei (128717)]

It depends on your reactor design. Plutonium != uranium.

This article is a bunch of pointless scare. There are huge known deposits of uranium, but a lackluster demand has kept them idle for years. Now there's a new uranium mining boom underway. When the deposits come online, the price will crash again (hopefully not so much as to drive most of the companies out of business, though).

Yes, uranium is far from the most plentiful or concentrated element in the crust. However, if you use breeder reactors (both uranium and thorium breeders), you're looking at hundreds of years worth. With seawater uranium extraction (more expensive, but an option), you could be looking at thousands of years.

The biggest fear that most people have with breeders is the production of material that could be used in bombs. However, you can "poison" plutonium (from uranium/plutonium) and U233 (from thorium breeders) with a proper reactor design to make it less reliable for bombs. I personally think people worry too much about "rogue states getting the bomb", anyways.

Re:Yeah

[dbIII (701233)]

No, it appears the poster above should learn a bit more about uranium fuel and the problems with fast breeders that have resulted in them not being a viable proposition. Just as there is a lot of aluminium, titanium and silicon about, it is difficult to get material pure enough to use from any random piece of dirt, so the fairly limited supply of uranium ore that is good enough to use is due to the difficulty of extracting the stuff. After a point it is just not worth trying since you could use the effort expended to just generate electricity another way. As for seawater extraction - where did that paticular gem come from and did the guy have more than an MBA?

It's interesting that thorium was mentioned becuase that is a more plentiful fuel material. It is more difficult to handle than uranium and that has limited its use up to this point but there are serious efforts underway in India now that they can concentrate on a civilian nuclear industry.

People have been talking about the fuel scarcity for well over a decade (hence India's thorium work which started a decade or more ago), I have not read the article so I am commenting on the scarcity, the post above and not on anything new the article may have brought up.

Re:Yeah

[StikyPad (445176)]

As for seawater extraction - where did that paticular gem come from and did the guy have more than an MBA?

http://www.jaeri.go.jp/english/ff/ff43/topics.html [jaeri.go.jp]
http://www.wise-uranium.org/upusa.html#SEAWATER [wise-uranium.org]
http://www-formal.stanford.edu/jmc/progress/cohen. html [stanford.edu]
http://en.wikipedia.org/wiki/Uranium#Resources_and _Reserves [wikipedia.org]

Which is why India's looking at thorium...

[meringuoid (568297)]

... Uranium's not all that abundant, we've known that for years. But the breeder reactors they're building in India can convert thorium to fissile material as a byproduct of their operation. There's enough potential energy in the available thorium supply to run the planet for an awfully long time. Whether it's economical to do so at present is another matter, but for long-term security there's no better consumable.

Re:Which is why India's looking at thorium...

[by Anonymous Coward]

Uranium's not all that abundant, we've known that for years.

This article is just another resource scare article. Uranium is not like oil in that it only forms in the upper levels of the crust on the Earth. You can find Uranium anywhere in the solar system. When they say that uranium is becoming scarce they mean that it is becoming scare in the east to reach places of the top 0.5 km of the 6371 km radius Earth.

In an age where people understand such development principles like Moore's Law, you would think that people would have a little more imagination when it comes to the future of resource exploration in the next century or so.

Re:Which is why India's looking at thorium...

[QMO (836285)]

When they say that uranium is becoming scarce they mean that it is becoming scare in the east to reach places of the top 0.5 km of the 6371 km radius Earth

Actually, that's not what they mean. They mean that people haven't invested in mining uranium lately. There is plenty of easy (for uranium) stuff in the US.

Re:Which is why India's looking at thorium...

[kestasjk (933987)]

It's better; we've got so much uranium around we don't know what to do with it! The problem is we're using high uranium-235 fuel, leaving lots of u-238 around. We bury it underground, talk about throwing it into the earth's conveyor belt so it gets sucked under, etc.

Interesting thing is that in the same breeder reactors as the GGP posted about you can use u-238 as a fissile fuel; it's a slightly more expensive process which is why we don't use it.

We have somewhere in the range of 10,000 to 4 billion years of energy via breeder reactors (and they're currently in production; it's not science fiction, it's just a bit more expensive).
Saying we're running out of uranium is like saying we're running out of rock. We've got so much of it around we're trying to get rid of it!

I'd say this is anti-nuclear pro-drum-circle sensationalist garbage.

Re:Which is why India's looking at thorium...

[Grishnakh (216268)]

We don't need to change the rules; we need to just invade oil-rich nations and use their oil. When that all fails to give us our energy, we'll just let our economy collapse.

Meanwhile, more enlightened countries like India will develop breeder reactors and have more electricity than they know what to do with. Their societies will become the most technologically advanced, while the US will become a backwater full of ignorant hicks who sit around under candlelight talking about how dangerous nuclear power is, and how crazy other countries are for believing in Darwin's evolution theory instead of Intelligent Design.

Re:Which is why India's looking at thorium...

[hcdejong (561314)]

In an age where people understand such development principles like Moore's Law, you would think that people would have a little more imagination when it comes to the future of resource exploration in the next century or so.

Wait, you think that Moore's Law applies to anything besides semiconductor production? Do you know how rare it is to see such a quantum leap in performance, let alone have an industry keep this up for 20-30 years? Uranium isn't going to drop out of the sky on its own accord, it'll have to be mined, and the mining industry is subject to the same economic realities as the rest of the world (with semiconductor production as the sole exception).

Re:Which is why India's looking at thorium...

[Tom Womack (8005)]

Breeder reactors can also convert U238 to fissile plutonium, which is if anything more useful, since we already have reactors designed for Pu239 and I don't believe any reactors have yet been designed for Th233.

The problem is that people paranoid about nuclear proliferation have successfully made it very politically difficult (it's not technically completely straightforward, you're running rather fiddly chemistry by remote-control in a very high radiation environment) to reprocess spent fuel to get the plutonium out for reuse.

So the current nuclear fuel cycle is the equivalent of running a basic oil refinery, taking out the small jet-fuel fraction from crude oil, and then pumping the remainder back into the ground in places deliberately chosen to make it hard to take it out again. Breeder reactors are the equivalent of those catalytic-cracking columns in refineries which can make something useful out of the heavier crude-oil fractions.

Re:Which is why India's looking at thorium...

[paeanblack (191171)]

Yes, that's the problem. Unfortunately I don't see a way to solve it, do you? Plutonium is pretty awesome stuff, and I don't think manufacturing it at 500 places around the world is such a great idea. Nuclear proliferation isn't a technical problem, but it is a problem.

We can solve the problem by designing bigger and better weapons. A century ago, nitroglycerin manufacturing was once an international political issue. Today, we really couldn't care less if some country wants to play with dynamite. Once nuclear weapons no longer instill the greatest fears, the uranium industry can start operating without the detrimental extra-market forces.

That's what we call the "peace dividend" :-/

Re:Which is why India's looking at thorium...

[Glock27 (446276)]

We can solve the problem by designing bigger and better weapons. A century ago, nitroglycerin manufacturing was once an international political issue. Today, we really couldn't care less if some country wants to play with dynamite.

The element of 'realpolitik' involved is that when a technology becomes so available it can't be controlled, the big powers just give up and move on to other problems.

However, there is a qualitative difference between WMDs and earlier weapons. WMDs can easily erase a city, fairly easily erase a country, and realistically could erase all life from the planet. So, there is a great concern about them regardless of ease of manufacture.

The bald fact is that both biological and chemical WMDs can be manufactured in very scary quantities in small labs now. Some of the recent developments with bioweapons make me personally more concerned with them than nuclear weapons. It is also possible that someone will finally figure out a practical method of laser uranium enrichment that'll eliminate all those pesky centrifuge cascades.

What is my point? That WMD manufacture is entering or has already entered a similar phase to dynamite in terms of ease of production. I feel we still need to cripple Iran's nuclear program, but we also need to start a determined and intelligent civil defense effort so when the inevitable WMD attacks occur we survive with minimal losses.

Will our species survive long enough to get off this rock? Stay tuned...

Re:Which is why India's looking at thorium...

[Firethorn (177587)]

Lead(PB) is extremely common, used for all sorts of things from fishing weights, bullets, solder to radiation shielding.

Using a few tons of lead for radiation shielding isn't enough to impact the lead market in any meaningful way. Uranium is pretty much used solely in the nuclear industry, so a 50% increase in that will have a substantial effect.

But yeah, we've been living off of borrowed time for uranium for a while. We did a lot of exploration back during the WWII/early cold war period, found enough deposits to build enough bombs to blow up a good chunk of the earth, then pretty much quit because it wasn't economical to continue, we had enough stock for all demands for the next ~50 years or so.

Same story as oil, in other words. It's still going to take more than a 900% price increase to really start affecting nuclear power; The cost of the fuel is still considered 'insignificant'. It'd be like if gasoline for your car was one cent a gallon a decade ago and ten cents today. Paying somebody to refuel your car would still cost more than the fuel.

Re:Which is why India's looking at thorium...

[Mike Van Pelt (32582)]

Absolutely. According to my copy of the CRC Handbook of Chemistry and Physics, "There is probably more available energy in the Earth's crust from thorium than from uranium and all fossil fuels put together." But even short of that:

1. The cost the uranium fuel is a relatively tiny part of the cost of nuclear power. Double, triple, quadruple the price, and it's not going to make a huge difference. There's a whole lot of energy in a little bit of uranium.

2. The "shortage" is, more than anything else, an artifact of failure to reprocess wastes. Fuel rods have to be replaced, not because all the U235 has been fissioned, but because neutron-absorbing fission products have built up and started getting in the way. Only part of the fissile isotopes in the fuel is fissioned before the fuel rod has to be removed.

   Reprocess, separate out the fission products, and put the remaining U238, U235, plutonium, and other actinides into new fuel rods, and available fuel expands by several times. This is before you even start thinking about breeder reactors.

3. Breeder reactors.

4. Back in the 1970s, the Japanese demonstrated a process to extract uranium from sea water using an ion exchange process, at a cost of about $200/pound in 1970 dollars. That could be considered a very long term ceiling on the price of uranium.

Solution

[FredDC (1048502)]

1/ Find a country with lots of uranium.
2/ Invade in the name of freedom.
3/ Profit!

Re:

[UbuntuDupe (970646)]

Show of hands: who actually believes that it is impossible for people in Country A to buy a natural resource in Country B unless Country A has a military presence in B or has defeated it in a war?

Alright, you with your hands up: explain Singapore, Japan, South Africa, China, and Switzerland.

Re:Solution

[Mattsson (105422)]

The problem is when Country A want to get resources in Country B while paying little or nothing for it and at the same time stopping Country C from getting any of the resources from Country B even if they're willing to pay more than Country A for those resources.

Re:Solution

[Gavin Rogers (301715)]

You stay away from Australia, now, you hear?

Re:Solution

[elrous0 (869638)]

Don't worry, we're only coming to bring you democracy.

...wait, you do? Already, huh?

Well, in that case, we're just coming for an extended vacation.

Re:Solution

[HungSoLow (809760)]

50% of the world's Uranium comes from Canada and Australia.

Pfft. Canada has burned down the White House once before, we can do it again.

Re:Solution

[Chris Burke (6130)]

Pfft. Canada has burned down the White House once before, we can do it again.

Okay, so you caught us off guard once. We figured you wouldn't be able to use torches because they'd catch your tuques on fire. We won't make the same mistake again.

And don't try the ol' "Look out behind you! TERRORISTS!" trick, as we've already fallen for that one before too.

Re:Solution

[dattaway (3088)]

It's an obvious solution. "In the name of freedom" might be hard to justify, but that's not really stopped the U.S. in recent history.

We are working on that. The RIAA is at work this very minute taking away their freedoms. In about 5 years, Canadians will be begging for their freedom. That's when we move in with our military to protect them. They will be giving up their uranium for free!

Re:Solution

[Dun Malg (230075)]

Considering the US uses uranium for ammunition I suspect you might not end up with a net gain.

Yes, it's depleted, but it's prefectly servicable fuel in a breeder reactor. A potential which rather makes me wonder how smart it is to spread it around in enemy territory.

Gee, you wonder how smart that is? It's a pity the DOD didn't think to consult you before using DU as a projetile--- they probably never even thought about its potential as breeder reactor fuel!
Look, a breeder reactor isn't something two mujahideen can slap together out of adobe bricks in a weekend. It's safe to assume that anyone with the resources to build a breeder reactor can probably find something to put in it locally, they don't need to comb the Iraqi desert looking for 2lb bits of DU embedded 20' in the ground.

Suck on THAT, terrorists!

[elrous0 (869638)]

God help us. Could the world conceivably face a time in the future when we don't even have enough Uranium left to wipe out the human race? [shudders]

Re:

[Mprx (82435)]

All fusion bombs use a fission detonator.

Finally!

[Rob T Firefly (844560)]

And they said I was stupid to invest in all this uranium when it was cheap! Now, if I could just stop coughing up blood long enough to take some photos for eBay, I'll be set for life...

Hopefully...

[hcdejong (561314)]

this will lead to renewed interest in breeder reactors. Recycling nuclear waste is a good thing.

Re:Hopefully...

[TigerNut (718742)]

Exactly. Naturally occurring uranium is at most 0.7% U-235, which is the fissile material used in conventional power reactors. The other 99% is discarded as "depleted" uranium and used as high density slugs in weapons. So if the world could only get over its Puritanical aversion to breeder technology, the available supply of fissile material would instantly increase by a factor of 99, not even counting the thorium that can be transmuted into U-233 (as already noted by another poster).

99.5% - Integral Fast Reactor (IFR)

[bill_mcgonigle (4333)]

Breeder reactors reuse spent nuclear fuel. They only need small amounts of fuel to keep the reaction going. However, what about the waste? Compared to a conventional reactor, how much radioactive waste do they produce?

The Integral Fast Reactor [wikipedia.org] (IFR) would have used 99.5% of the fuel. The remaining 0.5% of the waste would have had the characteristic of decaying to ore-levels of radiation within 300 years. That's nearly a 100-fold decrease in the amount of nuclear waste we'd have to deal with, and orders of magnitude shorter time for protecting the waste. The waste is also attractive from a non-proliferation standpoint

Unfortunately, the Clinton Administration defunded the IFR project almost immediately after taking office and killed it properly two years into the first term. After all, how can you count on donations from the NONUKES lobby if safe, responsible fission power is available?

Bush hasn't restarted the project either, so there's plenty of blame to go around in Republicrat circles.

We should finish the research and build at least one of these reactors at the Yucca Mountain site. There we can burn all of the incoming waste fuel, and light up Las Vegas or something with the energy. If it were only for waste disposal it would be a good idea, but once the research is done we also have a system for solving Global Warming. China is even interested but they're going with Pebble Bed Reactors since the IFR work wasn't finished. I'd be happy for them to finish the work, but perhaps they don't have the qualified staff. I abhor those who think Global Warming is man-made and dangerous and refuse to embrace technology like IFR. Even the founder of Greenpeace is a 'shill' for the nuclear industry - he recognizes you have to make choices, and none of them are perfect, but such is life. The choice matrix is simple if we want to get this solved this century: man-made global warming, nuclear, or agrarian society. Pick one.

I understand Bill Richardson groks these issues. I wish he'd come out in full support of solving our energy problems instead of beating around the bush on it. I'd definitely vote for him if he did, and I'm not in the habit of voting Democrat. Oh, and it also solves our little geopolitical security problem, depowers the middle east despots, and bolsters our economy.

Re:99.5% - Integral Fast Reactor (IFR)

[WindBourne (631190)]

The interesting thing about the IFR is that America has enough waste to power America for over a 100 years without adding any extra material. That figure assumes that we move to 100% IFR electricity and that it grows at its usual rate. Since france is nearly 80-90 % based on nukes and Japan has made major use of nukes, they also have loads of waste product. With IFRs, it is possible for us to buy time to develop and move to alternative energy.

Funny thing is, this is a MUCH better solution that WIPP. As it is, the only real place for WIPP was western Texas since Nevada IS earthquake prone.

Re:Hopefully...

[Dun Malg (230075)]

Honest question:

Breeder reactors reuse spent nuclear fuel. They only need small amounts of fuel to keep the reaction going. However, what about the waste? Compared to a conventional reactor, how much radioactive waste do they produce?

Since breeder reactors turn "spent" fuel into more usable fuel, they actually produce very little waste, and that waste has a very short half life. Breeder reactors are, in fact, both the answer to the fuel problem and the waste problem.

Unfair price comparison

[maynard (3337)]

Uranium prices have spiked in recent years, as TFA shows. However, comparing prices today with a decade or so back ignores the huge amount of uranium that hit the market after the collapse of the Soviet Union [mit.edu]. A more honest comparison would go back several decades.

Another point to consider is that while current steam based nuclear power plants do burn uranium down to an unusable 'waste product', that waste is actually quite useful with reprocessing. So, while it is true that were the world only to burn low-level enriched uranium the world would run out quickly, it is not true that with a more modern burn-reclamation cycle that fuel shortages would persist.

Thorium, Plutonium... FUSION

[physicsphairy (720718)]

There are plenty of things you can run reactors off of besides uranium. There's actually quite a bit of thorium in the earth's crust, for instance. And other fuels, such as plutonium, can actually be manufactured. Fission outputs plenty of power to justify manufacturing serviceable isotopes from more abundant elements, although, granted, it much better if you have reactor-ready material.

But I think the point of fissile materials running out is set to be quite moot. Fusion reactor output has been increasing exponentially since its inception, and it should not be terribly long before it will be a viable alternative to fission power. Once we're set into fusion, it is basically impossible to run out of fuel. Fusion reactors run off of deuterium, which accounts for about 0.015% of all hydrogen. That is a crapload of deuterium! Consider that the oceans are 2/3 hydrogen (more or less) and heavy water is fairly easy to separate. (*actually, a tritium-deuterium reaction is more preferable for future reactors, but the tritium is refined from the deuterium--there is no natural abundance of tritium since it has a half life of ~17 years)

As a worst case scenario, we can always mine other planetary bodies. But despite the article's hype, don't expect us to run out of reactor fuel anytime this century.

Uranium in Sweden

[the_arrow (171557)]

Saw a news-segment on tv a couple of days ago. The reporter stated that Sweden might have anything from below one percent of the worlds uranium, up to almost 20 percent.
However, the villagers in a nearby village of one place where initial test-drills was supposed to start soon, was not happy. They were very worried both about loosing tourists and that it might have a bad effect on the reindeers.

Poor Summary

[pavon (30274)]

From reading the summary it makes it sound like we are running out of natural supplies of uranium. This is not the case, and if we implement breeder or burner reactors, will not be the case for a very long time. The problem is that we don't have much uranium mining and processing capability in this country, since the outlook for future growth of nuclear power has been low the last couple decades for political reasons. So that would have to be ramped significantly as we build new plants, and MIT is worried that it is not happening at a fast enough rate, and may hamper further growth.

Need increased research funding

[starseeker (141897)]

I think there is an assumption made, almost unconsciously, that if our other power sources fail we could always "fall back" on nuclear if we wanted to take the risk. It's interesting to see that large scale nuclear power could have similar infrastructure problems to renewables - invest a lot or don't end up viable.

This article focuses primarily on the economic questions of scale-up. I would be curious to know how much uranium is theoretically recoverable and how long it would last us. Perhaps there is so much of it that we could live off of it indefinitely (particularly with waste reprocessing) but I don't know the numbers.

What this article DOES demonstrate, even better than renewables, is the need to sustain and increase basic research into ALL energy problems and technologies. Solar, wind, geothermal, nuclear, and various storage techniques like hydrogen will be needed; it's not a one solution fits all kind of equation. Nor will the solutions just "be there" when we need them, unless we pay attention and take steps to ensure that they are. Even nuclear cannot be taken for granted.

Also - in the long term human beings will consume all available power either by technological/standard of living increases, population increases, or both. There isn't going to be a solution which will be "enough" - we will ALWAYS find something to do with it. Just the scale-up going on right now is putting a healthy demand on resources of all sorts, and that's just the short term. In hundreds or thousands of years there will be some very fundamental problems that need solving, and I think we need to get started working on them sooner rather than later. These things don't happen magically, they take hard and long work.

Business is not to be expected to think long term, certainly not in the current environment. That should be the job of government research funding, and there needs to be a LOT more of it. Perhaps the difficulties of scaling up nuclear power will help to wake people up - it would be nice to do the research on new power technologies in something other than economic crisis mode.

Breeders, reprocessing, thorium, no such things

[Ancient_Hacker (751168)]

I'm amazed how many people have posted about the wonders of breeder reactors, reprocessing, or thorium as fuel, without really looking into these things.

• These things havent been done, or have been tried and discarded, all for very good reasons.
• Many tens of billions of $ have been spent on breeder reactors. Total fuel generated, near zero. In fact the generated plutonium has negative value-- there's a huge surplus of Plutonium in the world to day. I.E. Huge supply, no demand.
• Reprocessing is expensive and polluting. Even at todays 10x uranium prices, nobody's going to try reprocessing, because it's still too expensive, especially if all the external costs are factored in.
• Thorium in general can't be plugged into existing reactors, not without considerable modification of the reactor cores and control systems. Not likely to happen anytime soon.

Folks, before you hop on a wishful bandwagon, how about making sure there is a wagon?

Re:Breeders, reprocessing, thorium, no such things

[clevelandguru (612010)]

These things havent been done, or have been tried and discarded, all for very good reasons.

India is successfully running a test breeder reactor for the last 20 years and they are building more breeder reactors. http://www.india-defence.com/reports/2854 [india-defence.com]

No Wonder -

[RoffleTheWaffle (916980)]

It's no wonder we're running out, when most of the reactors in service around the world are grossly inefficient anyhow, and were practically designed to generate nuclear waste products they can't use for fuel. The typical light-water nuclear reactor today only exploits about 1% or less of the energy it can get out a given amount of nuclear fuel. (Assuming it has a once-through fuel cycle, which is the most popular.) Other technologies, however (such as the Integral Fast Reactor, which Hazel O'Leary and John Kerry so kindly helped to kill in 1994) which feature closed fuel cycles could theoretically safely use up to 95% of the energy stored in their fuel, and could in practice even consume the fuel-waste of other reactors. Other alternative fuel cycles feature materials such as Thorium as their fuel of choice. (Even Americium - the stuff in your smoke detector - has been considered as a fuel source.)

This 'Uranium Crisis' isn't caused by the mere consumption of nuclear fuel, but rather the ridiculously wasteful manner by which we've chosen to consume it for over half a century now. Better technology is within our reach that could allow us to dramatically stretch our nuclear fuel supply, both at current and greatly heightened consumption levels. While this hardly means we should stop worrying (good ideas too often fall before bad people) it does offer a bit of hope for us until nuclear fusion power finally takes off some time toward the end of our lives, if it ever does.

Re:

[Tom Womack (8005)]

Err, that's an interesting thing to be taught; the core of the Earth is a sphere of liquid iron. Uranium isn't a siderophile (that is, it doesn't dissolve in liquid iron), so there won't be much uranium in the core (this also means there won't be much uranium in asteroids, in case space enthusiasts want to mention mining those for the uranium).

People have measured the uranium content of the inside of the Earth by looking for neutrinos of the right energy, which are produced during radioactive decay and fly

Re:

[jimstapleton (999106)]

I'm not sure where you went to school, or if you just slept through class, but it is *NOT* uranium, though it probably contains some. Even if it were, it's, as far as we are concerned, less accessible and mine-able than uranium would be on other planets. The core is nickel/iron mostly, and solid due to pressure. The layer above that is nickel-iron also (pretty sure, may have forgotten), but less pure, and liquid, as the temperature isn't as high.

Also, the problem the article mentions is not that the uranium

Re:Breeder reactors

[arivanov (12034)]

Well... If this becomes the policy, any country which is allowed to produce nuclear energy will automatically be capable of producing proper nuclear arms (not U235 firecrackers like the one North Koreans did recently). The regime to handle this politically is simply not in place at the moment.

Untrue - only for PUREX

[Flying pig (925874)]

As has been pointed out repeatedly in the literature, there is a promising route to build sodium cooled breeder reactors whose byproducts do not yield themselves to the production of plutonium, but do lend themselves to electrolytic refining rather than the PUREX route that has been used to support weapons manufacture. It has further been proposed that these reactors actually be used to consume existing high level waste, reducing disposal cost and easing the supply problems. (Unfortunately I can't point to any obvious links, as my information is in dead tree format, but I'm sure they are out there.) The problem seems to be that the advanced countries that have the capability of building such reactors don't have the political will, partly owing to "environmentalists" who seem actually just to be technically ignorant luddites. In fact most of these technologies have been around for years without commercialisation, but now it will take a long time to build reactors - of course it benefits the families of several politicians in the current US administration that oil prices stay high. The sudden push for pork barrel biofuel projects could be associated with the fact that the product utilises the current oil industry infrastructure rather than the boring old electricity supply industry infrastructure. And it does not commit to spending some serious money on scientific and engineering research which could, in the long term, reduce the value of shares in, say, Exxon, very considerably.

If you want to keep your tinfoil hat on, you could argue that there are great similarities between the oil industry and the RIAA. Neither of them want new technology, regardless of what the public want or need.

Re:Breeder reactors

[inviolet (797804)]

By the way, has anyone noticed that despite our best efforts nuclear weapons continue to proliferate, as if they have lives of their own?

Not quite. They are proliferating more as if they have half-lives of their own.

*rimshot*

Re:

[jayayeem (247877)]

Yeah, the prices seem awfully low to me too. I'd guess that the cost of fuel is not a large portion of the cost of operating a reactor facility.

Gasoline is about 20 - 30% of the cost of running a car IIRC, so a 50% increase in cost is huge. If fuel costs are only 1% of the cost of running a reactor, a 900% increase increases production cost by less than 10 %, an I bet fuel costs are far less than 1% of the total.

Since 9/11, US nuclear plants have probably spent as much money on guns for the security pe

Re:Cost per Joule?

[QuantumPion (805098)]

I was really surprised to find that something so powerful and dangerous as 1 lb. of Uranium is selling in the $60-$80 USD range. Does anyone know how much energy a typical modern reactor squeezes out of a pound of uranium?

Uranium is not dangerous, and one pound of uranium is not very much as far as power reactors are concerned. For reference, the density of uranium metal is 18 g/cm^3, so 1 lb of uranium metal would only be 25 cm^3 in size.

A typical PWR generates around 3000 MWt, runs for ~500 full power days, and is loaded with around 70,000 kg of uranium metal. So that is [3000 MW*500 d*24 hr/d*3600 s/hr]/[70 000 kg] = 1,851,429 MJ/kg. For comparison, gasoline contains 47 MJ/kg. Keep in mind though that the uranium metal is not really consumed, it is only depleted until it builds up too much neutron-absorbing fission products, at which point it can be reprocessed and reused.

If uranium metal is $80 per lb, then it costs a mere 2 cents for 1 GJ of thermal power. Gasoline costs about $3/gallon and one gallon weighs about 6.2 lbs=$0.48/lb. So gas is about $22.51 for 1 GJ, which is more then 1000 times more expensive then uranium.

Re:

[Professor_UNIX (867045)]

This is going to mean a decrease in standards of living, for just about everyone. We might as well get used to the idea.

Typical Luddite-speak. If anything, our consumption of energy will only increase in the future and it'll just push us towards finding new sources of renewable energy. They are available, they're just not cost effective at the current price points when there are cheaper non-renewable means available.

Summary of a poorly spaced post.

[ivan256 (17499)]

Here's a summary of the parent post to save your eyes from the lack of whitespace:

I read this anti-nuclear power propaganda pamphlet [earthhealing.info] and totally fell for it.

Re:Good to Know

[Shakrai (717556)]

I don't like nuclear power either (it's unsafe, unsustainable and expensive), but in today's world, it's not like we have lot of choices...

Really? Cuz I think anybody that knows about the subject could dispute all three of those statements. It's unsafe? Want to talk about how many people die in coal mining accidents? Hell, that still happens in the Western world. Thousands die in the developing world. Want to talk about global climate change caused by CO2? Nuclear accidents get more press because of the fear of anything "nuclear" but if you look at the complete life cycle of fossil fuels they aren't any better. In fact they are probably much worse.

Define unsustainable? Because the general opinion seems to be that using breeder technology we will have fuel sources for tens of thousands of years.

Expensive? Compared to what? Coal? Gas? How much will climate change wind up costing us?

reduce our consumption drastically

Why should I have to reduce my standard of living when we have technology (nuclear) that won't cause climate change? Everybody talks about reducing consumption but that isn't going to fly. You realize that two or three billion Chinese and Indians are doing their best to get up to a Western standard of living? If humanity doesn't embrace nuclear, what other option is there? More CO2? What kind of world do you want your children to grow up in?

and removing nuclear power from our energy panel is as stupid as arguing about nuclear wastes in a 1000 years when everything that we do today (like planning 26 new coal powerplants in Germany to replace nuclear powerplants!) lead us into *big* troubles in no more than 50 years...

Thank you!