AndroAsc wrote:Broomstick wrote:No, there won't be a “burn fest” of a kiloton of nuclear fuel rods because, as already mentioned by others, only a subset of that total is in any danger of burning right now.
We know that the newer fuel rods are burning in at least one reactor since all the water is gone, and these are the type that combust when exposed to air. After reading prior posts, I agree that the risk associated with the older rods are probably remote.
The fuel for reactor #4 was all sitting in the pool because the reactor was undergoing scheduled maintenance. Yes, that one caught fire, there's probably been some melting, it's a hell of a mess. However, your information is a little off so let me clarify a few things that have already been mentioned in the prior 25 pages of this thread:
It is not exposure to air that causes the fuel rods to combust, it is
high temperatures. The high temperatures are a result of
insufficient cooling. If you had those fuel rods surrounded by pressurized water but with no heat exchange outside the contained system the temperatures would rise until water disassociates into hydrogen and oxygen, the hydrogen would form a gas, and the oxygen would form oxides with the various materials the fuel rods are made of, that is, the fuel rods would burn. That is, in fact, where the hydrogen that blew out the walls of reactor buildings came from. That's why there was so much concern with pressure and water from the very first. This is a situation where things can burn even under water. It's not enough to simply dump water on the mess, you have to either circulate the hot water out and bring cold water in, or dump sufficient quantity of water on it so the water can absorb all the heat without boiling off.
I always thought that the radioactive waste was stored underground in some desert area which is seismically stable.
Yes, that
was the idea behind the Yucca Mountain storage facility. I think there's an idea floating around that we built something of the sort. We didn't, because the project was killed due to lobbying.
I guess for Japan that would be hard to find, but leaving radioactive waste in a nuclear reactor is plain stupidity.
Well, yes and no – clearly you're going to have some radioactive substances at a nuclear facility, and you won't constantly be taking out the garbage. But if there was a proper facility to send it to there would be much less, which would make control and containment that much easier.
Yes unfortunately, greenpeace and the tree huggers are using this as an excuse that OMG NUKLAR poison, when in reality what we should do is start evaluating our safety protocols and start spending money to install proper backups before shit like Fukishima happens. In my opinion, it is probably a preventable accident, but they just did not plan for the possibility of "what if our water pumps go offline?"
While I agree there were some foreseeable and preventable aspects to this, no, the Japanese did not anticipate a quake of that magnitude. That was based on the best science and history we have, which we had no way of knowing was insufficient information.
Most reactors of the same model as what is at Fukushima HAVE been upgraded and safety improvements made. In many respects, Fukushima is a worst case scenario equipment-wise. Even other Mark I's are supposed to be less prone to overheat and with higher capacity water cooling systems. I hope we never actually have to test that idea, of course, but if those safety upgrades weren't made then this responsibility lies at the feet of the power company owners.
They did, in fact, have triple redundancy on the cooling systems – backup diesel generators, battery power, and the final seawater-dump. Triple redundancy is usually considered sufficient paranoia for complex systems though there are exceptions (in hindsight, maybe this should have been one of them). In actual fact, the plant got through the
earthquake just fine, even if that quake significantly exceeded design limits. The reactors shut down automatically without incident and the backup generators came on line. It was the
tsunami that caused things to go pear-shaped, by taking out the diesel backups. Even then, the battery backups came on line, as intended. The problem was that the designers did not anticipate the power plant being without access to either outside power or being able to fix/replace on site power generators for the length of time that has actually occurred. Again, that's the fault of inadequate predictive science more than malice.
I view it as a positive that worldwide owners/operators of nuclear reactors are reviewing their safety procedures in light of what happened at Fukushima and discussing ways to make reactors ever more disaster resistant. Some rather simple ideas may make a great of difference in the future, from additional power backups for cooling systems and larger reservoirs for cooling water to locating generators at high spots and fuel pools at low spots.
Broomstick wrote:I'm probably missing something, but who cares if it is plutonium or plutonium oxide? Radioactivity does not depends on whether it is in the elemental or oxide form.
What you're missing is that ALL nuclear fuel rods contain plutonium as it is produced during normal operations. The only difference between the fuel rods is that MOX rods contain a higher percentage of plutonium. Any melting/burning/destruction of any reactor fuel rod will liberate some plutonium.
However, one important difference is that pure plutonium is a silvery metal that tends, like most metals, to remain in a lump. Plutonium oxide is a flaky substance that is much more easily dispersed into the environment. It's the difference between a pristine piece of steel and one that's rusty and flaking rust and dust into the environment. Plutonium oxide is a lot more likely to get inside you because of that dispersement ability.
Broomstick wrote:Half life is 8 days, actually.
Yes, but it needs a few weeks to drop to acceptable levels. If I want it to drop to about 5% of the original level, I would need to wait for about one month.
True. However, the exposure levels you'd see on the west coast are so small that, for purposes of human health, it makes no difference.
As a note, there
are preliminary reports of airborne radiation showing up on the coast of California today. However, these are
miniscule elevations from the normal background. No one (here at least) is claiming that Fukushima radiation can't reach North America, what is being asserted is that
amount will be so small it poses no risk to human health. At this point, you get more radiation from flying across the Pacific in an airplane than you do standing on the beach in LA inhaling the wind from Fukushima.
Broomstick wrote:Don't know about YOUR mainstream media, but mine has mentioned it. But then, I don't think you'd find my local media alarmist enough.
Yes, it was only mentioned after that reactor got into trouble. From last Fri to Mon, there was always something new that comes out. Initially, there was one reactor, then we realized there was four with problems, and now there's six. Initially, there was no fuel rods mentioned, then later it was mentioned, and now we are told some of them are MOX fuel rods. This kind of drips and drabbles only make people suspect that the Japanese govt and power companies are covering up stuff. What else is there that they failed to conveniently mentioned to the rest of the world?
Actually the Wikipedia article – which as we all know usually isn't the most in depth – on the first day reactor trouble was reported clearly stated that there were 6 reactors, which were off-line for maintenance, and links to other sources of information. Just because you didn't know about this information, or the media didn't publicize it, doesn't mean it wasn't available to the public. You just had to look for it. Anyone who has researched how nuclear plants operate were aware of the existence of cooling ponds for spent fuel. There are even aerial photographs of the power complex freely avaialble on line. Not spoon-feeding basic and freely available information to the public is not the same as hiding it.
At least these days I can sit at home and research such things. Back when Three Mile Island was happening it would have required a trip to the library at the very least, and possible inter-library loans from universities, to do the research I can now do sitting in my own home. Back in those days I probably spent a month researching what I accomplished my first day on line this time around.
Broomstick wrote:How do you know they aren't? Do you think the US asked their citizens to evacuate a larger zone than the Japanese did just to piss Japan off? The International Atomic Energy Agency is also running their own simulations. Did you think France has been saying this is worse than the Japanese are admitting from day one based on something pulled out of their ass?
Plenty of groups with FAR more knowledge and expertise than any of us here are working on the problem. They may be getting different answers, or they may have different sets of data, or different levels of risk tolerance.
Yes, and they are not sharing it with the mainstream media or anyone else
And why should they, when the media has already whipped up a panic? The media have demonstrated a deplorable lack of good judgment and objectivity when reporting on nuclear issues. The general public hasn't the training or understanding to compare conflicting reports from these agencies.
... and I believe that many external organizations are having problem simply because the Japanese government is not sharing enough data. Not to mention that the Japanese govt and power companies have been downplaying the entire event. Claiming that there is water in the fuel rods pool when there is none (as claimed by the US govt). Evacuating only 20 miles when the US recommends 50 miles. What happens to those left in the 20+ miles region? They are left to die:
http://news.ninemsn.com.au/article.aspx?id=8225127
Good god, what an overreaction.
It's not even certain that anyone at the power plant itself received a fatal dose (though there is troubling indications that might be so – we just
don't know yet) – much less 20km away.
Yes, people outside of 20 km from the power plant are being told to stay indoors. Do you know why? Because it
actually does offer some protection from any radiation that
might be in the air – keeping in mind most of the past week the wind has been blowing out to sea and thus these people are likely receive NO “fallout” from the plant while that is the case.
What is this “staying indoors” advice based on? It's based on
actual human experiments where the US government exposed military troops to atomic blasts and compared the radiation received by those in the open vs. those inside a structure (and structures of various types). Yes, human experimentation is deplorable, especially as those troops weren't volunteers for the experiments but ordered to do them, but lets at least make use of the data now that we have it. It's also based on the analysis of injuries from Hiroshima and Nagasaki. It's based on 70 years of various nuclear accidents and how even a small amount of material can make a significant difference in the amount of radiation a person receives.
In other words, the Japanese government is NOT blowing smoke up anyone's ass on this. Staying inside does make a difference. The US government has told its own citizens to evacuate out to 50 miles (I think that's 85 km) but isn't enforcing it, and has told anyone choosing to remain in the area to stay inside.
Denying the problem exists does not solve things. In such situations it is better to over-react than the under-react. I used to had a high opinion of the Japanese govt, now I am not sure anymore.
Over-reacting can kill, I'm sorry to say. Here in the US they're cautioning people NOT to take potassium iodide pills on their own because of the risk of fatal reactions to them in some cases. Would be a fucking shame if people take those pills in a panic
when there is no objective reason to do so and some of them wind up dying due to adverse reactions, wouldn't it? Or attempting to move hospital patients in an unstable state out of fears of radiation, when in fact having them remain in their current location is less dangerous to their immediate health and actually exposes them to less radiation than taking them outside while transporting them to a new location – would be a damn shame if a few people died because they were moved when it was unnecessary, wouldn't it?
If the able bodied wish to leave the area by all means, let them do so – that leaves more resources for those who can't leave, or who are working on the problems there. But let's not get hysterical here. Radiation is not the bogeyman.
Broomstick wrote:Fair enough, but I wish this explanation had come out from the Japanese officials.
I agree, they could have done a better job explaining it, but maybe the Japanese government puts a greater priority on dealing with the multiple national emergencies than lengthy explanations to laypeople in other countries. The first obligation of the Japanese government is to protect Japan, not satisfy our urge to know.
As for who knew what and when – I don't know yet. It's easy to make snap judgments, and I am as prone to that as anyone, but I'm trying to suppress the urge to lay blame until more information comes out. If some official is weeping in public because he acknowledges fuck ups, well, that's part of the accident aftermath. It's entirely possible to feel sincere regret for fuck ups that could cost lives. That doesn't make things all better, but it's part of moving forward. At least that man has come clean about his errors – far better than long term continued denial. Right now though none of us has all the information pertinent to this accident. Any conclusion must be tentative, and subject to change with more information.
Yes, it's scary shit. It's scary as all hell because radiation can kill you, or make you sick, and you can't see the damn shit while it's doing it. But the more educated you are the more you realize that it's not some distilled form of evil out to get you. It's physics. It's something that is around us all the time. Background radiation is like static electricity – it's everywhere, but it's not hurting us. A malfunctioning reactor is like a bolt of lightning – it's highly concentrated, but very, very localized. Don't stand near the thunderstorm and you won't get hit. Don't stand near the reactor you won't get irradiated.
