Davis-Besse scrutinized: Team seeks lessons in power plant's relapse

Mar. 19--OAK HARBOR, Ohio -- Federal regulators want to know what, if any, lessons from Davis-Besse's latest relapse can be applied to the nation's 103 other nuclear plants, according to one of the key members of the special inspection team dispatched to the site by the U.S. Nuclear Regulatory Commission.

Jay Collins, a senior materials engineer at the NRC's headquarters in suburban Washington, said it will take some time before he and others on the inspection team discern what might be applicable to the rest of the industry and what is potentially unique to Davis-Besse, one of only seven plants with a Babcox & Wilcox design.

Since at least June of 2002, during a meeting of the NRC's Advisory Committee on Reactor Safeguards, the agency has known that the nation's Babcox & Wilcox plants typically operate hotter than others.

Davis-Besse, with an operating temperature of 605 degrees, was the nation's hottest in 2002. It typically operated 20 degrees warmer than the industry average of 585 degrees.

Mr. Collins said it ...
http://www.istockanalyst.com/article/viewiStockNews/articleid/3961818

keeping the largest source of emission free power in this country as safe as possible.

You know, the one they only discovered by chance...

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then you are right they discovered it by "chance".

Through how many fueling cycles and routine inspections did that damage escape notice?

What was the time required to for the acid solution to eat through all that steel?

Also they learned from that mistake. Now the control rod "nozzles" are inspected with ultrsound to allow inspectors to "see" inside the metal and discover damage before it is obvious.

That technique has worked very effectively at current Davis Besse fueling outage.

Through how many fueling cycles and routine inspections did that damage escape notice?

What was the time required to for the acid solution to eat through all that steel?

So, I'd say 5 fuel cycles, tops.

It's not like they got away with the bad behavior.

He is acting like the subthread is about the recent revelation of cracks in the "replacement" vessel lid.

Don't be dishonest.

http://www.nrc.gov/reactors/operating/ops-experience/vessel-head-degradation/images.html

Less likely than you getting killed today by driving to Church. Or if you're over 50, less likely than you dying for any reason whatsoever this very moment.

But still less likely than you dying right ... now, assuming you're over 50.

http://www.toledoblade.com/apps/pbcs.dll/article?AID=/20040311/NEWS17/103110139/-1/NEWS

But it was possible, and that is the entire point.

Really, look at mortality tables. Over 50 is around .007 or higher. (The 100s approach 1.0.)

For the NRC it was a very very big deal. For reality? It was a big deal but not as dire as you make it out to be.

Your claims regarding the statistical measure of safety for nuclear power seem sort of irrational when viewed against the numerous design and operations errors (see post 18) that almost resulted in a disaster at Davis-Besse, and that is the entire point.

Nuclear proponents want to create the impression that the actual risk of major problems is so low (0.0001) that it is absurd to worry about it happening; the implication being that the REAL level of risk is, for all intent and purpose, actually zero.

While it is reasonable to consider the statistics, it is also valuable to look at why they are pushed so hard with the intent of creating the impression of ZERO risk; which is obviously that the consequences of failure if it should occur are so horrific that only zero risk is a tolerable level in the mind of rational people.

Well, this incident (like TMI, Chernobyl and 2 space shuttle disasters) demonstrates that there is no such thing as ZERO risk in even the most rigorously designed and policed system.

Davis-Besse Retrospective
Download: Davis-Besse Retrospective | Davis-Besse: The Reactor with a Hole in its Head

On March 6, 2002, workers repairing a cracked control rod drive mechanism (CRDM) nozzle at the Davis-Besse Nuclear Power Station in Ohio discovered a football-sized cavity in the reactor vessel head.<1> Their finding is linked to two other discoveries 15 years earlier. On March 13, 1987, workers at Turkey Point Unit 4 in Florida discovered that a small leak of borated water had corroded the reactor vessel head. Their revelation prompted the Nuclear Regulatory Commission (NRC) to require all owners of pressurized water reactors, including Davis-Besse, to take specific measures to protect plant equipment from boric acid corrosion.<2> On March 24, 1987, the NRC learned that control room operators at the Peach Bottom Atomic Power Station in Pennsylvania had been discovered sleeping while on duty. That revelation prompted the NRC to issue an order on March 31st requiring Peach Bottom Unit 3 to be immediately shut down.<3>

The three findings spanning 15 years are intertwined. Turkey Point demonstrated that a small amount of boric acid leaking onto the reactor vessel head corrodes carbon steel at a high rate. Had the FirstEnergy Nuclear Operating Company, the owner of Davis-Besse, remembered Turkey Point's lesson, the serious damage at Davis-Besse would have been averted. Peach Bottom demonstrated that a pervasive safety culture problem creates unacceptable conditions for operating a nuclear power plant. Had NRC remembered either Turkey Point's or Peach Bottom's lesson, they would have issued the order they drafted to shut down Davis-Besse. It would have been the first shut down order issued by the agency since the Peach Bottom order. But both FirstEnergy and the NRC forgot the past and relived the wrong event from March 1987 by having yet another reactor vessel head damaged by boric acid corrosion.

Many individuals, from both within and outside the NRC, have accused the agency's move towards risk-informed decision-making as the reason for its failure to issue the order to shut down Davis-Besse. On the contrary, the NRC's handling of circumferential cracking of control rod drive mechanism (CRDM) nozzles as reported by the Oconee nuclear plant in February 2001 was a successful demonstration of proper application of risk-informed decision-making ¾ with the sole and significant exception of its mistake in not issuing the shut down order for Davis-Besse. But even that mistake, as bad as it was, does not impugn the risk-informed decision-making process for the simple reason that the NRC deviated from that process. Had the NRC adhered to its risk-informed decision-making process, it would have issued the shut down order for Davis-Besse and capped off a stellar example of how this process can and should be used.

In February 2001, the NRC learned of a new aging mechanism, the circumferential cracking of stainless steel CRDM nozzles based on inspection results from Oconee. The NRC properly reacted to this finding by revisiting the nuclear industry's inspection regime for CRDM nozzles. It determined that the existing inspection regime did not provide adequate assurance that circumferential cracks would be identified and repaired. The NRC did not require all plant owners to immediately address this inspection shortfall, which would have imposed an unnecessary regulatory burden on those plants with low susceptibility for the problem. Nor did the NRC allow all plant owners to address the shortfall at their next regularly scheduled refueling outage, which would have imposed an unnecessary challenge to safety margins at those plants with high susceptibility. Instead, the NRC applied risk-informed decision-making by issuing Bulletin 2001-01 in August 2001 to all owners of pressurized water reactors. This Bulletin required the high susceptible reactors to resolve the inspection shortfall by December 2001, the medium susceptible reactors to resolve the inspection shortfall at their next regularly scheduled outage, and merely collected information from the low susceptible reactors.

Only two reactors with high susceptibility ...
http://www.ucsusa.org/nuclear_power/nuclear_power_risk/safety/davis-besse-retrospective.html



It is worth remembering the chortling of nuclear power proponents about how new regulatory regime concentrates virtually all regulatory oversight into the hands of the NRC, while at the same time unambiguously promoting the goal of a "nuclear revival" as being crucial to the continued existence of the industry.

Do you think the NRC is committed to seeing this industry not only continue, but grow? Is that the role of a regulatory agency that is charged with safety oversight an industry with such potential for calamity?

A society without nuclear specialists would stagnate technologically and intellectually. I for one would prefer that will is spent building nuclear power that builds cleaner energy than one that solely exists for the creation of nuclear bombs. You get rid of clean nuclear power bombs are the only place nuclear specialists can go.

We don't create regulatory agencies to perpetuate their existence, we create them to ensure the interests of the public are being managed properly.

The single largest FAILING of bureaucracy is that it tends towards a "my turf" mentality that results in bloat and perpetuation of programs and policies that do not meet basic standards of worth to the public.

The range of basic ideas you've demonstrated a need to brush up on grows with every post you make.

:rofl:

Aside from the fact that "industry" is in an antagonistic relationship with the EPA, not a symbiotic relationship, the EPA provides a wonderful example of how ineffective a bureaucracy can become when the administration (BushCo) is determined to allow the regulated industries free rein.

Now if that happens with the EPA, where the regulators are a fairly distinct career group than those in the industries they regulate; just imagine the potential for regulatory failure that the NRC and the nuclear industry represent. Hell, we don't have to imagine at all, all we have to do is examine the hole in Davis-Besse's reactor head to see the process in action.