- #351
Angry Citizen
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This link really put the disaster into perspective for me:
http://wiadomosci.gazeta.pl/Wiadomosci/0,113335.html
http://wiadomosci.gazeta.pl/Wiadomosci/0,113335.html
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Angry Citizen said:I think the helicopter reports are in regards to the spent fuel ponds. A few helicopters dumping water could keep the spent fuel from being exposed without risking personnel.
http://www.reuters.com/article/2011/03/12/japan-quake-nuclear-ge-idUSN1227232120110312
FACTBOX-U.S. nuclear plants SIMILAR to Japan plant in peril (Reuters)
Sat Mar 12, 2011 3:39pm EST
March 12 (Reuters) - Japan's Fukushima Daiichi Unit 1 reactor that had an explosion and radiation release was a General Electric Co (GE.N) Mark 1 boiling water reactor type.
[ID:nN12287054] [ID:nN12275226]
There are 23 GE Mark 1 reactors operating at U.S. nuclear power plants.
GE has rolled out several versions of the Mark 1, and some of the U.S. reactors could be slightly different than the Daiichi Unit 1 reactor.
The U.S. Nuclear Regulatory Commission said ALL OF THE 104 REACTORS IN THE UNITED STATES, including the Mark 1 reactors listed below, WERE OPERATING SAFELY.
The following lists the Mark 1 reactors in the United States, according to data from the NRC and the Nuclear Information and Resource Service, which is opposed to nuclear power and is critical of the Mark 1 design.
Reactor Location Size (MW) Year
Browns Ferry 1 Decatur, AL 1065 1974
Browns Ferry 2 Decatur, AL 1104 1975
Browns Ferry 3 Decatur, AL 1105 1977
Brunswick 1 Southport, NC 938 1976
Brunswick 2 Southport, NC 920 1975
Cooper Nebraska City, NE 770 1974
Dresden 2 Morris, IL 867 1970
Dresden 3 Morris, IL 867 1971
Duane Arnold Cedar Rapids, IA 580 1975
Hatch 1 Baxley, GA 876 1975
Hatch 2 Baxley, GA 883 1979
Fermi 2 Monroe, MI 1122 1988
Hope Creek Hancock's Brdg, NJ 1161 1986
Fitzpatrick Oswego, NY 854 1976
Monticello Monticello, MN 572 1971
Nine Mile Point 1 Oswego, NY 621 1969
Oyster Creek Toms River, NJ 615 1969
Peach Bottom 2 Lancaster, PA 1112 1974
Peach Bottom 3 Lancaster, PA 1112 1974
Pilgrim Plymouth, MA 685 1972
Quad Cities 1 Moline, IL 867 1972
Quad Cities 2 Moline, IL 867 1972
Vermont Yankee Vernon, VT 620 1972
(Reporting by Scott DiSavino in New York and Bernie Woodall in
Detroit; Editing by Xavier Briand)
If TEPCO can get it under control, and at the moment, we expect that they are doing everything to control the situation - but we lack information on how successful they are. It's premature to draw conclusions.dlgoff said:If Japan can get this thing under control, wouldn't that be a good for the industry? Too early maybe to even consider I guess.
It's probably a translation issue, but then I'm sure there are those who will claim that all BWRs with Mk I containment are at risk. That is not necessarily the case, the the operator of those units will not be reviewing their individual situations to ensure that this will not be the case.DevilsAvocado said:I don’t know if this is a 'translation issue'? But as I interpret this they mean the "Japan(ese) plant in peril" = Fukushima I
?
More than a few. Let's say that the spent fuel pond is 40x40x40. That comes out to 64,000 cubic feet. If half of the water had either boiled away or leaked out due to a rupture, that means that 1,984,000 lb of water or 992 tons of water has been lost. If the authorities could get near the pool with a snorkel truck, they might have the capability of pumping in enough water to keep up with boil-off, leaks, etc.Angry Citizen said:I think the helicopter reports are in regards to the spent fuel ponds. A few helicopters dumping water could keep the spent fuel from being exposed without risking personnel.
Astronuc said:It's probably a translation issue, but then I'm sure there are those who will claim that all BWRs with Mk I containment are at risk. That is not necessarily the case, the the operator of those units will not be reviewing their individual situations to ensure that this will not be the case.
I'm sure folks are looking at the EDGs and backup, and at the vulnerability of the spent fuel pools.
FlexGunship said:I reserve the right to sound like an idiot here, but if they were able to pump anything directly into the primary cooling loop around the reactor core, why wouldn't they be pumping in water laced with a neutron-absorbing material?
As boron sediment formed around the fuel rods perhaps the heat would die down enough to at least prevent a meltdown. As I understand it, control rods are replaced less frequently than the fuel rods. This either means the control rods are used very infrequently or that the neutron capacity of the control rod material is high enough to out last the fuel rods themselves.
I'm kind of guessing, and I'm only skimming the 23 page thread (an act I hate when perpetrated by others).
nismaratwork said:They have been mixing the seawater with Boric Acid for just that reason, but all that does is (hopefully) prevent a criticality incident. I don't know how well that hold for the spent rods in pools... especially if they've been scatterd by explosions and more.
FlexGunship said:Hmm, okay. I'm glad they took my advice.
I've actually been curious about this. My uncle is a nuclear engineer, but I rarely get to talk to him. The fuel rods are actually in the form of stacked pellets (as I understand). If that's the case, wouldn't it be conceivable to eject (via gravity) the pellets from each rod down shafts into storage containers laced with neutron-absorbing material? Or even just shape the bottom like a cone so the pellets had a tendency to fall away from each other. If the shafts were angled away from each other slightly, the divergence of the fuel rods alone would help to prevent criticality.
In an event like this, it seems that the reliance on active emergency control systems is the fundamental flaw. But no tsunami or earthquake would cause gravity to fail. I guess you need a hydraulic door to open the bottom of the fuel rod receivers, so that could fail. But maybe you make it accessible to some external motive power.
I dunno... this is that classic: "well, if I had designed it..." with a little bit of "Captain Hindsight" thrown in.
[PLAIN]http://captainhindsightsays.com/wp-content/uploads/2010/11/captain-hindsight1.jpg[/QUOTE]
Or... start with something like this? http://en.wikipedia.org/wiki/Pebble_bed_reactor
FlexGunship said:I reserve the right to sound like an idiot here
FlexGunship said:In an event like this, it seems that the reliance on active emergency control systems is the fundamental flaw.
Borek said:That's not where the problem lies, reactor was correctly scrammed. Please read the earlier posts in the thread.
The reactors are shutdown, as intended, by the control rods (which contain neutron absorbing material), which is their function. The problem isn't the fission reaction, which stopped, so adding more neutron absorber, will not address the problem, which is the decay heat.FlexGunship said:Well, I got that just fine. But there's still decay heat even when the control rods are fully inserted, right? So, regardless, the reactor could benefit from additional neutron-absorbing material.
Astronuc said:The reactors are shutdown, as intended, by the control rods (which contain neutron absorbing material), which is their function. The problem isn't the fission reaction, which stopped, so adding more neutron absorber, will not address the problem, which is the decay heat.
The core is sealed in the pressure vessel, which is covered by the containment of reinforced concrete. The problem is one of getting cooling water to the core in order to cool the fuel by removing the heat generated by the decay of fission products. Ideally, that would be handled by a closed cooling system, but that some how got damaged by the earthquake/tsunami - the actual details of which we do not know.
The action then is to pump seawater (desparate action) into the pressure vessel to cool the fuel in the core. However, the system is no longer closed, and they have to vent steam through valves in order to prevent a build up of pressure that could damage the contaiment. The containment contains most radioactivity - except for the gases and volaties such as radioiodine, which get vented with the steam.
FlexGunship said:if they were able to pump anything directly into the primary cooling loop around the reactor core, why wouldn't they be pumping in water laced with a neutron-absorbing material?
FlexGunship said:Astronuc, thanks!
I guess I misunderstood the term "decay heat" which I now understand to mean "residual heat" or the heat energy already stored in the reactor. I was taking it to mean the heat that is generated even when the reactor is "shut down." Given that you can't stop the actual decay of the fuel rods, I guess I had assumed there would still be a non-trivial amount of heat being generated.
The two points I bolded in your post were the points I believe I was confusing. I'm now more knowledgeable!
Further, I saw the challenge of getting new water into a highly pressurized system (if they are venting of steam from the inner most cooling loop, then surely there's not enough room to add more water without further pressurizing it), which is why I shared the (now silly) idea of:
Decay heat isn't "residual" or stored heat, it's heat that is generated after the reactor is shut down, just not (directly) by fission. It's generated by the radioactive decay of fission products both during normal operation and after shutdown. And, as Astronuc pointed out, radioactive decay is unaffected by neutron poisons (or anything else).FlexGunship said:I guess I misunderstood the term "decay heat" which I now understand to mean "residual heat" or the heat energy already stored in the reactor. I was taking it to mean the heat that is generated even when the reactor is "shut down."
Yes - the beta decay is unique to the specific nuclide, and we cannot speed it up or slow it down in situ.nismaratwork said:You're kind of right, it's just that beta decay isn't moderated by neutron poisons, it's all within the materials... I think.
Once the reactor is shutdown and cools off a bit, the pressure is reduced. It will have some pressure because of the decay heat. Under normal operation, the plant uses power from the local grid (which was disrupted/lost). Then the emergency diesel generators should kick in (which they did) - BUT, the fuel supply to EDGs was disabled/damaged, so the EDGs quit. Ouch! Then batteries ran for a while, but then ran down. Meanwhile, we understand that they scrambled to get backup generation.FlexGunship said:Astronuc, thanks!
I guess I misunderstood the term "decay heat" which I now understand to mean "residual heat" or the heat energy already stored in the reactor. I was taking it to mean the heat that is generated even when the reactor is "shut down." Given that you can't stop the actual decay of the fuel rods, I guess I had assumed there would still be a non-trivial amount of heat being generated.
The two points I bolded in your post were the points I believe I was confusing. I'm now more knowledgeable!
Further, I saw the challenge of getting new water into a highly pressurized system (if they are venting of steam from the inner most cooling loop, then surely there's not enough room to add more water without further pressurizing it), which is why I shared the (now silly) idea of:
That was a very un-nerving video. So many dramatic photos are emerging.nismaratwork said:Ugh... just saw a video of a single house floating at sea...
hypatia said:That was a very un-nerving video. So many dramatic photos are emerging.
Wow. Check out all the debris that far out in their close-up picture of the man on the roof top.russ_watters said:Not sure if you guys saw this, but on Sunday, the JSDF rescued a man from the roof of his house...which at the time was located about 10 miles off the coast of Japan. http://www.therepublic.com/view/story/8ab0b68aefbb49938079d2a7c8239ceb/AS--Japan-Earthquake-Roof-Rescue/
His wife didn't survive, that was mentioned in another article.dlgoff said:Wow. Check out all the debris that far out in their close-up picture of the man on the roof top.
http://www.therepublic.com/view/photos/8ab0b68aefbb49938079d2a7c8239ceb/110313012491/"
May she rest in peace, and may he not hurt so much.Evo said:His wife didn't survive, that was mentioned in another article.
Borg said:Cyclones and meteor strikes? :uhh:
My own personal coincidence is that I've have been refreshing my knowledge of modern physics over the last few months. This weekend, I made it to chapter 30 - the section on nuclear reactions.
BTW, what does "nanaimo sheedonai" mean? All I get in Google is a reference to towns in Canada and Japan (nanaimo).
Evo said:His wife didn't survive, that was mentioned in another article.
Astronuc said:May she rest in peace, and may he not hurt so much.