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DEaVF2 Chapter 12: Session 941, February 8, 1982 3/66 (5%) nuclear Iran tmi reactor Russia
– Dreams, "Evolution", and Value Fulfillment: Volume Two
– © 2012 Laurel Davies-Butts
– Chapter 12: Life Clouds
– Session 941, February 8, 1982 9:01 P.M. Monday

[... 31 paragraphs ...]

I last discussed the cleanup at Three Mile Island, and nuclear power challenges in general, including safety and costs, in the opening notes for the 936th session, with its Note 2. That was almost three months ago, in November 1981; see Chapter 11. Lesser accidents, or “events,” as they are called within the nuclear-power industry, have continued to happen within the context of that primary accident at TMI—the loss of coolant for the nuclear reactor of Unit No. 2. I call the whole series of accidents “events of consciousness,” and think of them as unfolding in an orderly way from that initial large-scale event of consciousness, which took place on March 28, 1979. Early in January of this year (1982), for example, decontamination workers in a pair of buildings located between the plant’s two reactors triggered alarms when they inadvertently blew radioactive dust into the buildings from a drain filled with contaminated particles. The “unusual event” was not serious, although a small amount of radiation was released into the atmosphere through a ventilating system.

The process of decontaminating and storing the great amount of radioactive water which had collected in the containment building housing Unit No. 2 is well under way, as it is in an auxiliary building next door. Yet in mid-February the president of the company operating TMI announced that leakage from a tank used to store some of that water had contaminated groundwater at the site. The radiation is low-level, however, and well below federal safety limits.

[... 2 paragraphs ...]

Company projections are that the entire cleanup at TMI won’t be completed until the end of 1988—more than nine years after the accident took place. Current plans are that once the radioactive water is drained from the containment building of Unit No. 2, engineers will conduct remote investigations of the core of the reactor itself. A specially designed video camera will be inserted into the core so that the actual damage to the pencil-thin fuel rods can be assessed; and hundreds of thousands of sonar readings, taken through openings already present in the reactor, will be assembled by computer into images of the core. Several major steps must follow, all of them on an enormous scale: the lifting of the 160-ton metal “head,” or cap, of the reactor; the removal of the upper plenum assembly, the 55-ton mechanism which makes possible the raising and lowering of fuel control rods into the 100-ton reactor core, thus regulating the intensity of its nuclear reactions; and eventually, the difficult piece-by-piece removal of the damaged core itself. Even then, the core will still be so radioactive that most of the work will have to be done by remote-controlled devices. Finally, the cavernous containment building itself will be cleaned, again by remote control.

[... 29 paragraphs ...]

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