Japan Earthquake: Nuclear Plants at Fukushima Daiichi

In summary: RCIC consists of a series of pumps, valves, and manifolds that allow coolant to be circulated around the reactor pressure vessel in the event of a loss of the main feedwater supply.In summary, the earthquake and tsunami may have caused a loss of coolant at the Fukushima Daiichi NPP, which could lead to a meltdown. The system for cooling the reactor core is designed to kick in in the event of a loss of feedwater, and fortunately this appears not to have happened yet.
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http://www3.nhk.or.jp/daily/english/10_26.html [Broken]
 
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Engineering news on Phys.org
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This doesn't look like steam/fog ?
[PLAIN]http://img9.imageshack.us/img9/5008/40726091.jpg [Broken]
 
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Bioengineer01 said:
http://www3.nhk.or.jp/daily/english/10_26.html [Broken]
I'm going to ask publicly that people please not post uncommented links. Even a *very* short sentence fragment about what is of interest there is much better than nothing. Or just copy and paste a bit. Thanks :)

Unless I missed something, this is old news on this thread and already covered in much more detail (maps of readings):
"The workers withdrew after measuring radiation of 100 millisieverts per hour near the reactor's containment vessel."
"TEPCO says it intended to limit the workers' exposure to below 5 millisieverts per hour. But as all 9 received higher doses, it has suspended work while considering a course of action."
 
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  • #9,559
elektrownik said:
This doesn't look like steam/fog ?
[PLAIN]http://img9.imageshack.us/img9/5008/40726091.jpg[/QUOTE] [Broken]


Maybe that's an optical illusion. Right behind the plume is the third exhaust stack. It's possible that because of that the plume appears darker.
 
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  • #9,560
TEPCO 10th, early 40s, male workers of the subcontractors working at Fukushima Daiichi Nuclear Power Station, became unconscious in the dormitory, announced that the city was taken to hospital by helicopters Iwaki
http://translate.google.com/translate?js=n&prev=_t&hl=en&ie=UTF-8&layout=2&eotf=1&sl=ja&tl=en&u=http%3A%2F%2Fwww.yomiuri.co.jp%2Ffeature%2F20110316-866921%2Fnews%2F20110610-OYT1T00597.htm
 
  • #9,561
"""So, how can I justify the criticality theory with the (possible) evidence of intact fuel rods (2) in the pond becomes the question of the day."""

you might read up on criticality,

http://www.if.uidaho.edu/~gunner/ME443-543/LectureNotes/ReactorPhysics.pdf

i did and abandoned the idea for a pool with so little fuel in it.

did anyone ever hear what was location of the worker fatalities in that explosion?

i have looked but to no avail.
 
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  • #9,562
100,000,000 becquerels per cubic centimeter of radioactivity estimated for Fukushima sludge
http://mdn.mainichi.jp/mdnnews/news/20110610p2a00m0na010000c.html [Broken]

this is 100 Terabecquerels per cubic meter~!
 
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  • #9,563
SteveElbows said:
I don't spend much time pondering sophisticated censorship by TEPCO in terms of editing, rather I expect that if any circumstances arise that they do not want to show, they will just switch the feed off completely. The time delay of some 30 seconds is freely acknowledged by TEPCO, and apart from possible technical reasons for this, that would give them a buffer to pull the feed before we saw the start of the unexpected event taking place, but I'll cross that bridge if we ever come to it.

I haven't tried too hard to line the TEPCO timestamp up with reality, there are differences between the time my devices tell me is now, the TEPCO timestamp, and the time that earthquakes are reported to happen, but they seem to be well within a minute of each other so I don't fret it. Plus I have no idea how long it can take earthquakes to be felt in locations a bit away from the epicentre, (any takers on this?), nor whether the webcam is only visibly affected by certain kinds of earthquake motion and not others.

The horse is out of the barn and we're watching pictures of the empty stall and arguing if it live or memorex. If anything happens I will wait for the inevitable release of the recorded clips. If people are really watching this live cam hours every day, I hope they can get back to their lives in a few years.
 
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Bioengineer01 said:
100,000,000 becquerels per cubic centimeter of radioactivity estimated for Fukushima sludge
http://mdn.mainichi.jp/mdnnews/news/20110610p2a00m0na010000c.html [Broken]

this is 100 Terabecquerels per cubic meter~!

Well, it's to be expected. The radioactive materials won't disappear if you send all that water in the basement through AREVAs reprocessing facility.
That's the waste which'll be produced.
 
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jim hardy said:
"""So, how can I justify the criticality theory with the (possible) evidence of intact fuel rods (2) in the pond becomes the question of the day."""

you might read up on criticality,

http://www.if.uidaho.edu/~gunner/ME443-543/LectureNotes/ReactorPhysics.pdf

i did and abandoned the idea for a pool with so little fuel in it.

did anyone ever hear what was location of the worker fatalities in that explosion?

i have looked but to no avail.

Fatalities that I am aware of included a crane operator at Daini, a heart attack, and the two workers drowned or smashed in the trubine building during the tsunami. I may have missed a report, but don't think any of the reports 11 (unit 3) + 4 (unit 1) explosion injuries were fatal.
 
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NUCENG said:
I may have missed a report, but don't think any of the reports 11 (unit 3) + 4 (unit 1) explosion injuries were fatal.

There were rumours of six fatalities in the Unit 3 explosion event. But I never saw an official confirmation.

Still it's a miracle that nobody died in the Unit 1 explosion. They must've been in the middle of setting up the portable power generators and wiring the Units when number one went airborne and wrecked those generators and wires.
 
  • #9,567
NUCENG said:
If people are really watching this live cam hours every day, I hope they can get back to their lives in a few years.

I would not be surprised if some people are. Personally I think I would go nutty if I spent hours watching it per day, minutes is hard enough going. I tune in live once in a while but get bored after a minute or two, and I skim those sped up videos someone is putting on youtube to see if anything interesting has happened. If it were not for those youtube videos then the only thing Id have spotted to date, apart from the usual steam and camera wobbles due to earthquakes, would be a couple of animals, a few instances of vehicle lights at night, a few unidentified animals and a person who I caught out of the corner of my eye while not even watching the stream properly one day, which gave me quite a fright for half a second.
 
  • #9,568
""I may have missed a report, but don't think any of the reports 11 (unit 3) + 4 (unit 1) explosion injuries were fatal.""

thanks Nuceng

and i shouldn't have made that claim from memory. I could easily be wrong.

i thought i recalled four fatalities in the unit 3 blast

but my memory is not infallible, will research it again for myself.

sorta like in this video >>Note not nuclear related, older folks will appreciate it most<<

 
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If only there was some way to put a camera on each part of the plant. A good one.
 
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my mistake,,,
the four fatalities were at a coal plant...

http://www.ocala.com/article/20110404/ZNYT03/104043000

"Four other workers died at Tokyo Electric’s Hitachinaka thermal power plant when they fell from the chimneys they were working on."

sorry

--- forgot to engage brain before typing -
slip of the fingers
old jim
 
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elektrownik said:
Tepco doesn't tell us also about unit 5 pressure stress test during earthquake until last gov report... so who know... maybe there was fuel in unit 4.

Highly doubtful since they were doing a core shroud replacement. They've done them before and the entire job takes about 10 months. In early March they were about 5 months into it. My guess for the thermal signature is there was water being heated by residual radiation of the irradiated core components inside.
 
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jim hardy said:
""I may have missed a report, but don't think any of the reports 11 (unit 3) + 4 (unit 1) explosion injuries were fatal.""

thanks Nuceng

and i shouldn't have made that claim from memory. I could easily be wrong.

i thought i recalled four fatalities in the unit 3 blast

but my memory is not infallible, will research it again for myself.

sorta like in this video >>Note not nuclear related, older folks will appreciate it most<<



"Six soldiers from the Japanese Central Nuclear Biological Chemical Weapon Defence Unit are reported to have been killed in the explosion.[166]"
http://en.wikipedia.org/wiki/Fukushima_I_nuclear_accidents#Explosion_of_reactor_4_building

On the reference 166 provided by Wikipedia, you have a witness account of one of the workers:

"Workers told how the earthquake ripped through the plant, immediately knocking out the main power. A ghastly boom was heard in the suppression chamber of reactor 4, said Kenji Tada, who was there at the time. Cracks started ripping in the asphalt and the sides of the building. They fled before the tsunami arrived and did its worst. As the situation deteriorated, the first explosion, at reactor 3 on March 14, happened at the precise moment that six soldiers from the Japanese Central Nuclear Biological Chemical Weapon Defence Unit arrived at the reactor in two vehicles. The six of them are now dead, buried under flying concrete."

Now the question arises again, was this suppressed?
I knew that I had read it on the first hours or heard it in TV, but had a hell of a time finding a report on it. The original article quoted in Wikipedia is gone, but you can still find "exact" text references in Google search of the report, like here:
http://ninme.com/archives/2011/03/fukushima_fifty.html
 
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  • #9,573
English Appendices Up for Japanese Govt Report to IAEA

All the appendices (appendixes?) are also available in English now.

http://www.kantei.go.jp/foreign/kan/topics/201106/iaea_houkokusho_e.html

I spent a couple of hours trying to merge them all into one big PDF but ran into a few technical problems. Adobe Acrobat 8 doesn't like some of them (font issues, I think). This is the first time I've ever had major problems with Acrobat and, I must say, the error messages it displays are virtually useless when it comes to saying exactly what the problems are.

If I have time I'll try to do some more with them over the weekend.
 
  • #9,574
Fourth and final section of the Asahi Shimbun report on the Japanese nuclear experience is here:
http://www.asahi.com/english/TKY201106100215.html

This part of the report deals with the earthquake and tsunami provisions, which were apparently mostly retrofitted after the plants were already built.
There is no editorial wrapup, which might have added some local perspective.
Overall, a very good series.
 
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  • #9,575
etudiant said:
Fourth and final section of the Asahi Shimbun report on the Japanese nuclear experience is here:
http://www.asahi.com/english/TKY201106100215.html

This part of the report deals with the earthquake and tsunami provisions, which were apparently mostly retrofitted after the plants were already built.
There is no editorial wrapup, which might have added some local perspective.
Overall, a very good series.

From the article (bolding mine):
"The earthquake-resistance guidelines were revised in 2006. They required nuclear power plants to withstand a 20 to 30 percent stronger earthquake.

They also included provisions for tsunami protection for the first time. "

Before the notion starts to spread that nobody even thought about tsunamis before 2006, it should be noted that in the civil engineering article from 1967 (see https://www.physicsforums.com/showpost.php?p=3346821&postcount=9367) it is specifically mentioned that setting the ground elevation at +10 m was considered sufficient to protect against typhoon storm surges and tsunamis.

Obviously TEPCO underestimated the elevation needed to protect against tsunamis, but they did at least consider the issue in advance.
 
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  • #9,576
Bioengineer01 said:
"Six soldiers from the Japanese Central Nuclear Biological Chemical Weapon Defence Unit are reported to have been killed in the explosion.

I saw a recent interview with the head of a six man team who talked about the explosion in Unit 1, his men were injured and they had to flee, but never found any other mention of that 6 dead account.
 
  • #9,577
Quim said:
... There were broken pipe(s) venting hot steam and gases directly off the "pile" into the drywell. The water being poured into the RPV was coming in the well as steam - that was the intent. Along with the steam came a steady stream of hydrogen. The Drywell became an immensely hot cauldron of hydrogen and steam under a steadily increasing pressure and temperature. Just before the number three blast, the atmosphere in the well was at least 60 psi.

I would agree so far, except that the consensus now seems to be that the RPV had been breached several hours earlier, and part of the fuel had already dropped to the bottom of the drywell. Published radiation figures start just before the explosion, on the morning of 3/14, and already show 200 Sv/h in the drywell atmosphere.

Quim said:
The Japanese are good craftsmen and they made their own octagonal pattern for the lid so it may that those lids held up to 125 psi.

There may be some confusion here. AFAIK the concrete shield plugs are meant to block radiation only, not pressure. They may be octagonal in other reactors, but in #2--#4 all drawings indicate that the opening of the refueling pit is round and the plugs are three disks, 1--2 feet thick, each cut into two halves (presumably so that they can be more easily moved and stacked on the cramped service floor). AFAIK those plugs are held in place only by their weight.

Quim said:
It doesn't much matter what the actual pressure was the first time the lid was lifted enough to send a jet of this chamber gas to the realms above. The sequence came as a result of trace amounts of oxygen which began developing inside the leaky containment - we know there were sources for at least a small amount of oxygen production in there.

This seems unikely. At those temperatures and pressures, any oxygen that remained in the drywell from before the breach or that was generated by radiolysis/thermolysys should have been promptly consumed by the excess hydrogen, before it could buid up to an explosive concentration.

But maybe not.

Quim said:
So, in the reciprocal of what we in our normal world see, a gaseous mixture "flashed over": this may have been triggered by a sharp reduction in pressure as when the steam pressure forced the lids to float a little bit.

I did not do the math, but pesumably a massive leak of steam at 60 psi (400 kPa) into the refueling pit could have lifted the shield plugs, enough to let that steam escape into the service storey --- unless it found some easier way out.

However, I do not see how a sudden reduction in pressure (which would have cooled the steam) could have caused it to explode. Everything I see in the wreck suggests that the explosion happened some time after the H2 began to escape -- enough time for it to flow down to the 4th and 3rd storeys and mix with the air. I would rather believe that the steam leaked ignited the colder H2+O2 mixture that was already there, just with for being hot.

Quim said:
At the time just before the blast, the lid(s) had been seeping hydrogen into the region of the cattle trough, where it was beginning to rise up in a column of an explosive hydrogen/oxygen mixture.

According to the floorplans, he "cattle trough" that leads to the SFP (through which steam may be still leaking) is very narrow and short. The gate on the opposite side, to the dryer storage pool (through which steam is definitely still leaking) is as wide as the storage pool. I do not see either as being able to vector the steam significantly upwards.

Quim said:
I don't see any likelyhood that the head bolts stretched nor would they be needed to stretch under either of our specific views.

The head bolts *of the RPV* probably held fine, since the bottom had already been breached so the RPV was at ~400 kPa instead of its normal ~6500 kPa.

But for this scenario we need a path for the steam to get from the drywell to the refueling pit. One possibility is by breaching the diaphragm that connects the drywell wall to the RPV flange, and then leaking between the flanges of the yellow *drywell* cap. This may require stretching the bolts *of the yellow cap*. But there are other possible paths.

Quim said:
I don't see any reason to think the steam-dryer storage pool was involved in any significant way other than as a passageway for water or steam.

Neither do I. I suppose that both gates (to the SFP and to DSP) were closed, and that there was no water in the SDP or in the refueling pit at the time of the explosion.
 
  • #9,578
OK, let's say we dismiss Gunderson's Prompt Criticality theory because we can see a few square feet of what looks like the top of the spent fuel modules. If the fuel modules are in place then there must have been NO EXPLOSION from the pool.
The Hydrogen explosion only seems to carry us so far. We saw the horizontal explosion and almost all of us agree that THAT was the hydrogen explosion clearing out the rafters at the top of the building.
Assuming that we did see a second and more powerful explosion that was directed UPWARDS, what was that?
 
  • #9,579
Bioengineer

Thank you - that's a real interesting article.

It links to this Telegraph article
http://www.telegraph.co.uk/news/wor...nami-Fukushima-Fifty-the-first-interview.html

which repeats the tale as related by an unnamed worker
"As the situation deteriorated, the first explosion, at reactor 3 on March 14, happened at the precise moment that six soldiers from the Japanese Central Nuclear Biological Chemical Weapon Defence Unit arrived at the reactor in two vehicles. The six of them are now dead, buried under flying concrete."

The Wikipedia at
http://en.wikipedia.org/wiki/Fukushima_I_nuclear_accidents#Explosion_of_reactor_4_building

has several references related to the incident, two in Japanese i couldn't read.
Ref #208, dated June 7th says four of the soldiers were injured none killed
http://search.japantimes.co.jp/cgi-bin/nn20110607a5.html [Broken]

It relates a conversation with Col. Shinji Iwakuma the CO of the outfit.

While the team is experienced in dealing with nuclear, biological and chemical weapons, Iwakuma, 49, said that a mission requiring the cooling of an out of control reactor was an "unforeseen" scenario.

Iwakuma, who headed out to the No. 3 reactor with five men in three vehicles, was about to open the door of his car when the hydrogen explosion occurred at 11:01 a.m.

The thundering explosion and accompanying blast wave sent concrete and radioactive debris soaring about 70 meters into the air, obscuring his view in a cloud of gray dust, the colonel said.

"I think the debris fell for several dozen seconds, but it felt like it was for a very long time," Iwakuma said.

After managing to get out of his car, he noticed that his men were injured, dragging their legs or holding their arms tightly.

"Are you all right? We will get out of here right now," Iwakuma told them. One man had to be carried over his shoulder.

The dosimeter they had with them was giving off readings of about 20 millisieverts at the time.

Thanks - at least i have something to go on.
I was checking whether somebody mihgt have been spraying down the pool and it sounds like they hadn't yet got started.

I have a zillion of these loose ends floating around my alleged mind and am tracking them down one at a time.

thanks for the help. i wasnt so far off on that memory it seems, and new info has come in since i made the mental note.

old jim
 
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  • #9,580
Quim said:
)
There was a second application of energy which was vectored skyward, that could only have come from the pond.

Why could energy only have come from the pond?
 
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  • #9,581
jim hardy said:
""I may have missed a report, but don't think any of the reports 11 (unit 3) + 4 (unit 1) explosion injuries were fatal.""

thanks Nuceng

and i shouldn't have made that claim from memory. I could easily be wrong.

i thought i recalled four fatalities in the unit 3 blast

but my memory is not infallible, will research it again for myself.

sorta like in this video >>Note not nuclear related, older folks will appreciate it most<<



Thanks, that clip made my day,n now, what day is it again?
 
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  • #9,582
clancy688 said:
There were rumours of six fatalities in the Unit 3 explosion event. But I never saw an official confirmation.

I heard that rumor broadcast by NHK on the day of the explosion at unit 3. The broadcast was in Japanese, so I asked my 'translator' to verify my understanding of the six fatalities and she told me that it sounded like 6 soldiers had died, but that the wording used could also have indicated missing or injured.

I recently read an interview from NHK where the reporter spoke with a lieutenant responsible for 5 other men (for a total of six) who were preparing to start water spraying at unit 3 on the day of the explosion. He described how he was just opening the door of his vehicle when the unit exploded and injured many of his men. I believe he described the injuries as being serious, but that the men had survived. I don't know if his experience is related to the the NHK report of six dead, missing or injured men.

It also should be pointed out that many of the people working at the plant are contractors or soldiers, so if TEPCO say none of their employees have died, that does not indicate that nobody has died. And of course, with history as our guide, TEPCO could also be telling the truth or lying.
 
  • #9,583
elektrownik said:
This ? If (as we seen on underwater sfp 4 video) gate is undamaged, there is no other explanation...
[PLAIN]http://img535.imageshack.us/img535/3165/gggss.png[/QUOTE] [Broken]

According to this analysis of the hydrogen explosions:
http://tec-sim.de/images/stories/fusfpfail.pdf

the gate is only watertight while some rubber seals around it are inflated by a compressor.

According to this report by Daily Yomiuri Online:
http://www.yomiuri.co.jp/dy/national/T110428006723.htm [Broken]

the reactor pit was flooded at the time and TEPCO thinks the explosion triggered a leak from the reactor pit to the SFP.

If there's water circulation between the SFP and the reactor pit then the hot spot on the thermal image could well be the location of the RPV, without there having to be any fuel in it.
 
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  • #9,584
joewein said:
According to this analysis of the hydrogen explosions:
http://tec-sim.de/images/stories/fusfpfail.pdf

the gate is only watertight while some rubber seals around it are inflated by a compressor.

According to this report by Daily Yomiuri Online:
http://www.yomiuri.co.jp/dy/national/T110428006723.htm [Broken]

the reactor pit was flooded at the time and TEPCO thinks the explosion triggered a leak from the reactor pit to the SFP.

If there's water circulation between the SFP and the reactor pit then the hot spot on the thermal image could well be the location of the RPV, without there having to be any fuel in it.

Yes, but for example, unit 4 sfp is 80-90C from sensor data, from thermography sfp was for example 31C, this is not great computation but we can see that 10C from thermography = 30C from sensor, in some photos difference (Core location temp bigger) was 10C, so it would mean that when sfp was 80-90C, core location ~120C, this is big difference between core and sfp...
 
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  • #9,585
elektrownik said:
it would mean that when sfp was 80-90C, core location ~120C, this is big difference between core and sfp...

I'm not sure I understand what temperature data you're referring to, but an empty core can't be hotter than 100 deg C, especially when filled with liquid water at atmospheric pressure.

There is no way they could have left the core in there while they were cutting up the old shroud to replace it.

It was scheduled for refueling once the shroud replacement was done, but the fresh fuel for that was still in the fuel pool - the only fuel in the pool not giving off decay heat. That's why the fuel count was revised upward from an initial value of 1331 to over 1500, they remembered that was also there.
 
  • #9,586
etudiant said:
Fourth and final section of the Asahi Shimbun report on the Japanese nuclear experience is here:
http://www.asahi.com/english/TKY201106100215.html

This part of the report deals with the earthquake and tsunami provisions, which were apparently mostly retrofitted after the plants were already built.
There is no editorial wrapup, which might have added some local perspective.
Overall, a very good series.

I am not sure if the following statement by the Asahi writer fits very well with the contents of the Japanese Government's report to the IAEA :
Both the earthquake and tsunami exceeded levels anticipated by the revised guidelines.
http://www.asahi.com/english/TKY201106100215.html

Compare with :

Incidentally, the Regulatory Guide for Reviewing Seismic Design of Nuclear Power Reactor Facilities finalized in 2006 specifies in "8. Consideration for the event accompanied by an earthquake" that "During the service period of the facilities, safety features in the facilities [must not] be significantly affected even by such a tsunami that could likely to occur on very rare occasions," and the guideline asks for proper design for such a assumed tsunami.

IV-139 of http://www.kantei.go.jp/foreign/kan/topics/201106/pdf/chapter_iv_all.pdf
([] is my own translation from page IV-111 http://www.kantei.go.jp/jp/topics/2011/pdf/04-accident.pdf , changing "might not" into "must not")

Compare also

In February, the subcommittee held discussions on the Jogan Earthquake of 869
http://www.asahi.com/english/TKY201106100215.html

with :

Regarding this, NISA requested TEPCO at the 33rd Joint Working Group (July 13, 2009) to take into account the Jogan earthquake for evaluating design tsunami height when new knowledge on the tsunami of the Jogan earthquake is obtained.

III-31 http://www.kantei.go.jp/foreign/kan/topics/201106/pdf/chapter_iii-2.pdf

The Jogan earthquake is presented to the Asahi readership as a problem emerging in February 2011, while the Japanese government tells us that it was raised as early as July 2009.

Asahi's "Behind the myth" series was published in 8 instalments in the Japanese language paper version of Asahi Shinbun. http://www.asahi.com/english/TKY201106100215.html is an English translation of the 8th one published on June 1st. Perhaps it is already becoming a bit outdated as the Japanese report to the IAEA was published on June 8th.

rowmag said:
Obviously TEPCO underestimated the elevation needed to protect against tsunamis, but they did at least consider the issue in advance.

I agree. See also :

...in the application document for establishment permit, subject tsunami source is Chile Earthquake (M9.5 in 1960) and the design basis tsunami water level is 3.1 m. In 2002, TEPCO evaluated (...) assessing Fukushima-oki Earthquake (M7.9 in 1938) (...) and the highest water level of each Unit was set as 5.4 to 5.7 m. According to the evaluation, elevation of Unit 6 sea water pump motor for emergency diesel generator was raised up 20 cm and also that of sea water pump motor for High Pressure Core Spray was raised up 22 cm.

III-31 and III-32 http://www.kantei.go.jp/foreign/kan/topics/201106/pdf/chapter_iii-2.pdf
 
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  • #9,587
joewein said:
If there's water circulation between the SFP and the reactor pit then the hot spot on the thermal image could well be the location of the RPV, without there having to be any fuel in it.
The whole story is puzzling! I don't see any reason why they should have fuel in the RPV. But we see these hot spots. If it is water circulating between the RPV and the SFP why do we these delimited hot spots within the circle. Shouldn't the whole circle be an equally warm area? If it is from irradiated parts of the reactor then I can't believe that there is water in the RPV. How could parts get so hot when covered with water?
 
  • #9,588
Thank you, Tsutsuji, for the incremental perspectives.

A more complete story of the decisions made and the warnings not heeded gradually emerges.
It will be interesting to see the Japanese community's eventual response.
 
  • #9,589
etudiant said:
Thank you, Tsutsuji, for the incremental perspectives.

A more complete story of the decisions made and the warnings not heeded gradually emerges.
It will be interesting to see the Japanese community's eventual response.

More than warming not heeded, the explanation is different, it is a common regulatory practice, even in the USA of not defining in hard numbers the limits when those are known to be too high due to cost considerations and leaving the decision making to Industry, fully knowing that they will be forced to compromise. The problem with NP is that the final liability is taken by taxpayers, differently from other industries.
 
<h2>1. What caused the Japan earthquake and subsequent nuclear disaster at Fukushima Daiichi?</h2><p>The Japan earthquake, also known as the Great East Japan Earthquake, was caused by a massive underwater earthquake that occurred on March 11, 2011. The earthquake had a magnitude of 9.0 and was the strongest ever recorded in Japan. The earthquake triggered a massive tsunami, which caused extensive damage to the Fukushima Daiichi nuclear power plant and led to a nuclear disaster.</p><h2>2. What is the current status of the nuclear reactors at Fukushima Daiichi?</h2><p>As of now, all of the nuclear reactors at Fukushima Daiichi have been shut down and are no longer in operation. However, the site is still being monitored for radiation levels and there is an ongoing effort to clean up the radioactive materials that were released during the disaster.</p><h2>3. How much radiation was released during the Fukushima Daiichi nuclear disaster?</h2><p>According to the International Atomic Energy Agency, the Fukushima Daiichi nuclear disaster released an estimated 10-15% of the radiation that was released during the Chernobyl disaster in 1986. However, the exact amount of radiation released is still being studied and debated.</p><h2>4. What were the health effects of the Fukushima Daiichi nuclear disaster?</h2><p>The health effects of the Fukushima Daiichi nuclear disaster are still being studied and monitored. The most immediate health impact was the evacuation of approximately 160,000 people from the surrounding areas to avoid exposure to radiation. There have also been reported cases of thyroid cancer and other health issues among those who were exposed to the radiation.</p><h2>5. What measures have been taken to prevent future nuclear disasters in Japan?</h2><p>Following the Fukushima Daiichi nuclear disaster, the Japanese government has implemented stricter safety regulations for nuclear power plants and has conducted stress tests on all existing plants. They have also established a new regulatory agency, the Nuclear Regulation Authority, to oversee the safety of nuclear power plants. Additionally, renewable energy sources are being promoted as a more sustainable and safer alternative to nuclear power in Japan.</p>

1. What caused the Japan earthquake and subsequent nuclear disaster at Fukushima Daiichi?

The Japan earthquake, also known as the Great East Japan Earthquake, was caused by a massive underwater earthquake that occurred on March 11, 2011. The earthquake had a magnitude of 9.0 and was the strongest ever recorded in Japan. The earthquake triggered a massive tsunami, which caused extensive damage to the Fukushima Daiichi nuclear power plant and led to a nuclear disaster.

2. What is the current status of the nuclear reactors at Fukushima Daiichi?

As of now, all of the nuclear reactors at Fukushima Daiichi have been shut down and are no longer in operation. However, the site is still being monitored for radiation levels and there is an ongoing effort to clean up the radioactive materials that were released during the disaster.

3. How much radiation was released during the Fukushima Daiichi nuclear disaster?

According to the International Atomic Energy Agency, the Fukushima Daiichi nuclear disaster released an estimated 10-15% of the radiation that was released during the Chernobyl disaster in 1986. However, the exact amount of radiation released is still being studied and debated.

4. What were the health effects of the Fukushima Daiichi nuclear disaster?

The health effects of the Fukushima Daiichi nuclear disaster are still being studied and monitored. The most immediate health impact was the evacuation of approximately 160,000 people from the surrounding areas to avoid exposure to radiation. There have also been reported cases of thyroid cancer and other health issues among those who were exposed to the radiation.

5. What measures have been taken to prevent future nuclear disasters in Japan?

Following the Fukushima Daiichi nuclear disaster, the Japanese government has implemented stricter safety regulations for nuclear power plants and has conducted stress tests on all existing plants. They have also established a new regulatory agency, the Nuclear Regulation Authority, to oversee the safety of nuclear power plants. Additionally, renewable energy sources are being promoted as a more sustainable and safer alternative to nuclear power in Japan.

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