I am, predictably, entirely caught up following the drama at Fukushima Daiichi. Last night was a very enjoyable blur of refreshing news sites and researching aspects of nuclear plant design that I was unfamiliar with. Particularly, I had never explored the exciting world of spent fuel pools before. Turns out, they're super dangerous! This summary of what could happen in the case of pool failure is great, apocalyptic fun. (In the interest of balance, here is the official NRC response, note that it mostly just says pools will never fail, duh, and the suggested changes aren't cost effective. Given that we're now looking at SIX pool failures all in a neat little row, I'm not impressed with their magical 10-6 chance of failure per pool year.)
In short, loss of the water in a spent fuel pool could be really bad. Worse than a full meltdown, as they're not always under any significant containment structure, and certainly never as much as the reactor core. (4 of the 6 in Japan aren't under ANY containment structure, now that the hydrogen explosions have blown out the walls.) Luckily the Japanese do reprocess their fuel, unlike the US, so most of the pools won't contain as much old fuel as a US pool would. But we know the #4 pool at least has a full set of very fresh rods, as they were put there when it was taken down for maintenance last November. And that's the one looking really bad right now, possibly already having exposed some of the rods for at least a period of time. Which makes doing anything about it really hard, as the water is not just coolant but also shield for the rather intense gamma radiation. Once the water is gone, the pool is a very, very, very bad place to be around. You end up with a scenario not too different from Chernobyl in the basic facts of very nasty isotopes burning away and being lofted high into the air. Possibly much worse than Chernobyl, depending on just how tightly packed the pool is.
In the end, I'm feeling kind of pissed off. I was raised, as a friend with better claim to the title likes to say, ethnically hippie. I had a builtin distrust of nuclear power. Too big, too complicated, too prone to catastrophic failure, leaving dangerous waste that had to be managed for ridiculous periods of time. But I consciously got over that. The dangers of staying on carbon-based fuels -- even "clean" ones -- are far greater, if easier to ignore and less terrifying to our monkey brains. I'd prefer solar and wind, but that seems unlikely to be able to provide to the massive amounts of reliable power our civilization demands. So, okay, nuclear. The new reactor designs are pretty awesome. And the safety regs in non-Soviet plants are supposed to be crazy restrictive and careful. Waste management wasn't actually a big deal, I was told. Slightly uncomfortably, I made the decision to support nukes. And now I find out that, as safe as the reactors might be, the fuel is going to build up in these poorly protected pools, waiting to burn off catastrophically the next time power is lost for a few days. It's just insanely stupid, like buying a Volvo and then driving around with a gallon of nitroglycerin strapped to the roof.
Sad thing is, I think I rationally still have to support nuclear. An incident like this every 25 years is still probably better than melting the planet and disolving all the coral reefs, which is currently the only other option. But unless we can find the political will to actually do something with the spent fuel, count me in as an extremely reluctant supporter.
In still crazy, but slightly more gee-whiz news, I would like to nominate the most cyberpunk website of the year. We live in a world where that is actually happening, folks. The future is yesterday.
In short, loss of the water in a spent fuel pool could be really bad. Worse than a full meltdown, as they're not always under any significant containment structure, and certainly never as much as the reactor core. (4 of the 6 in Japan aren't under ANY containment structure, now that the hydrogen explosions have blown out the walls.) Luckily the Japanese do reprocess their fuel, unlike the US, so most of the pools won't contain as much old fuel as a US pool would. But we know the #4 pool at least has a full set of very fresh rods, as they were put there when it was taken down for maintenance last November. And that's the one looking really bad right now, possibly already having exposed some of the rods for at least a period of time. Which makes doing anything about it really hard, as the water is not just coolant but also shield for the rather intense gamma radiation. Once the water is gone, the pool is a very, very, very bad place to be around. You end up with a scenario not too different from Chernobyl in the basic facts of very nasty isotopes burning away and being lofted high into the air. Possibly much worse than Chernobyl, depending on just how tightly packed the pool is.
In the end, I'm feeling kind of pissed off. I was raised, as a friend with better claim to the title likes to say, ethnically hippie. I had a builtin distrust of nuclear power. Too big, too complicated, too prone to catastrophic failure, leaving dangerous waste that had to be managed for ridiculous periods of time. But I consciously got over that. The dangers of staying on carbon-based fuels -- even "clean" ones -- are far greater, if easier to ignore and less terrifying to our monkey brains. I'd prefer solar and wind, but that seems unlikely to be able to provide to the massive amounts of reliable power our civilization demands. So, okay, nuclear. The new reactor designs are pretty awesome. And the safety regs in non-Soviet plants are supposed to be crazy restrictive and careful. Waste management wasn't actually a big deal, I was told. Slightly uncomfortably, I made the decision to support nukes. And now I find out that, as safe as the reactors might be, the fuel is going to build up in these poorly protected pools, waiting to burn off catastrophically the next time power is lost for a few days. It's just insanely stupid, like buying a Volvo and then driving around with a gallon of nitroglycerin strapped to the roof.
Sad thing is, I think I rationally still have to support nuclear. An incident like this every 25 years is still probably better than melting the planet and disolving all the coral reefs, which is currently the only other option. But unless we can find the political will to actually do something with the spent fuel, count me in as an extremely reluctant supporter.
In still crazy, but slightly more gee-whiz news, I would like to nominate the most cyberpunk website of the year. We live in a world where that is actually happening, folks. The future is yesterday.
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Japan might not have been the wisest about placing these plants on the coast, but 15 years past the designed lifespan of these plants they have survived a 9.0 earthquake and 10m+ tsunami! All right, these plants aren't in the best of condition right now- what on the northeast coast in Japan right now is? But they aren't scattered about the countryside in shreds making any attempt to rescue survivors of the tsunami impossible to even begin. I hope we take a good long look at what the Japanese did right with these plants and learn from that as well as where things went wrong.
(Okay, I'll back away from the soapbox now... I'm just pissed that most of the American news has been “Panic! Panic!” and very little credit has been given where it is due.)
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That's true of interfaces for software that's going to be in general use. I would like to think that the people who operate nuclear power plants actually do constitute a "technical elite", so we should expect a somewhat more elite level of using the technology correctly from them.
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Our civ wastes butt-tons of energy. And just b'c it's demanded doesn't mean it's/we're gonna - or SHOULD - get it. Feelings of entitlement to same ain't enough.
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That said, I think the reason renewables don't scale yet is that nobody's tried hard enough, long enough. I was with you before Fukushima, but now I'm not so sure.
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As for solar, the biggest gain is solar hot water heating, which is cost-effective even in temperate climates like Wellington and replaces a big chunk of electrical demand.
For solar electric, it produces power just when you need it, during the day-time peaks. So how much you can have depends on a whole bunch of factors, but it's more than a few percent.
Oh, and then there's geothermal - thoroughly regular and for the US it may be cost-effective to expand that to another 10% of total supply or thereabouts. And then there's tidal - fluctuates daily but predictably and potentially huge. And then there's wave - fluctuates through the year but yet another renewable source to fill in the gaps.
It's not nukes versus coal versus the dark, no matter what the nuclear industry might put forward.
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For the US, both east and west coast are long enough that tides are similarly spread out, so a turbine in Seattle will be generating when one in California will be slack, and vice versa.
So yeah, chalk up another one for renewable baseline power.
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