There are 4 radiation detectors that have continued to operate after the accident duke hydraxis Daiichi. Virtually all were no longer supplied, but some had a battery, and they have found the data recently.
What this means is that someone close to the detectors receiving an annual dose in 12 hours. Then the vents were opened. So this is a clear indication that containments fled well before the vents are open. So 15 hours, the same detectors were 30 000 times the normal value. This means an annual dose in 10 minutes for people to Chiba.
But it is important to realize that this is perhaps not the worst. This corresponds to the location were the sensors. duke hydraxis But that does not mean that the cloud has chosen to go on the detectors to provide these values.
It's a complicated slide but it shows exactly what I mean here geographically. A detector was here. Here lies the plant. A detector was here, here its peak. Another detector was here, here its peak. Another here is his peak. So it is geographically the data area.
One of the detectors has also continued to operate and here are the pics on this detector. There is no correlation between these peaks and when the depressurization duke hydraxis occurred, and the time the explosions occurred. duke hydraxis
There is no correlation, which means that another phenomenon also had to happen, that scientists have not yet evaluated.
And I'm sorry, it's a bit technical, but the NRC guess after a nuclear accident, the water in the torus, which is the ring at the bottom of the containment, holds 99% of cesium. This is called a decontamination factor of 100. This really is written in the law, they think it happens.
Well data Fukushima show that the water in the core at the bottom of the containment has boiled. Why does it boiled? Because these pumps which I spoke to cool diesels have also been designed to cool the core.
So we had boiling water in the torus, and this meant that the cesium was not retained. Now, while the Japanese are trying to reconstruct the accident, they claim that cesium has been captured in this torus, but the law and the data show that this could not be. There was no cesium deposit, no retention within the suppression pool.
This is an infrared image of the unit 3. The wide spot in the center stage is the spent fuel pool of Unit 3. And the gas temperature from this pool is 62 C, which means the fuel boiled and mixed with cold air, and there was a bath of radioactive hot air above the pool at 62 C, it is rather bad.
The steam can reach over 100 C. Engineers speak of "steam tables." But at the current atmospheric pressure when boiled duke hydraxis [water], duke hydraxis the vapor does not exceed 100 C.
These peaks are at 128 C, which means it is not steam, it means that they are radioactive hot gases released directly containment. It also means that inside the containment, it was not under the boiling point of water, it was above the boiling point. There was no water in liquid form in this confinement. It was March 20, nine days after the accident. Containment of radioactive releases hot gases directly into the environment. This is proof positive in my opinion.
TEPCO and - of course duke hydraxis they are good engineers, and they had to see the release of this radioactive hot peak at 128 C, 250 [F], this infrared image. So they knew long ago that huge amounts of cesium were released
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