San Onofre: One Leaks, the Other Doesn’t… Yet

For those who thought that, with the new year, nuclear power had turned a page and put its “annus horribilis” behind it–as if the calendar were somehow the friend America’s aging reactors–let’s take a quick look at January 2012.

First, a glance across the Pacific, where the month began with the revelation that the Japanese government purposely downplayed their assessments of the Fukushima disaster–hiding the worst projected scenarios from the public from soon after the March earthquake by classifying the documents as personal correspondence–and ended with discovery of yet another large leak of radioactive water from one of the crippled reactors.

Closer to home, the lone reactor at Wolf Creek, Kansas, was shutdown on January 13 after the failure of a main generator breaker was followed by a still-unexplained loss of power to an electrical transformer. Diesel generators kicked in to run the safety systems until external power was restored, but the plant remains offline while a Nuclear Regulatory Commission inspection team tries to figure out what went wrong.

On the morning of January 30, a power failure caused a reactor at Exelon’s Byron Generating Station to scram, which in turn required a wee bit of venting:

[At] Exelon Nuclear’s Byron Unit 2 atomic reactor near Rockford, IL, primary electrical grid power was lost and safety and cooling systems had to run from emergency backup diesel generators when smoke was seen coming from a switchyard transformer. However, when the plant’s fire brigade responded, they could not find the fire. . . .

As revealed by Exelon’s “Event Report,” offsite firefighters were called in, Unit 1 is still at full power, and Unit 2’s cool down “steam [is] leaving via atmospheric relief valves.”

An initial AP report on the incident stated: “The steam contains low levels of tritium, a radioactive form of hydrogen, but federal and plant officials insisted the levels were safe for workers and the public…[NRC] officials also said the release of tritium was expected. . . .

Because, you know, a scram without some steam is like a coffee with out some cream. Or, as noted in the past, these emergency shutdowns are not subtle, quiet events. They are like slamming the breaks on a speeding car, and they cause all kinds of stresses and strains on reactor systems. Even when backup power kicks in, the process can require the venting of steam to relieve pressure in various parts of the reactor (where depends on the type of reactor and the kind of “unusual event”)–and that steam will often contain tritium, which has molecules so small they can pass from the closed loop that runs through the reactor into the secondary loop (in the case of pressurized water reactors) that powers the turbines.

So, lots of places in the system with varying levels of tritium, which, as Beyond Nuclear points out, is in no way “safe”:

[T]he linear no threshold theory, endorsed by the U.S. National Academies of Science for decades, holds that any exposure to radioactivity, no matter how small, still carries a health risk, and such risks are cumulative over a lifetime. It would be more honest for NRC officials to states that the tritium releases from Byron are “acceptably risky,” in their judgment, but not “safe.” After all, tritium is a potent radionuclide, a clinically proven cause of cancer, mutations, and birth defects, and if inhaled, ingested, or absorbed through the skin, can integrate anywhere in the human body, right down to the DNA level.

And to add insult to the dishonestly undersold injury, the NRC says it can’t yet calculate just how much tritium escaped in this event.

But Wolf Creek and Byron were really just steamy warm ups (as it were) for January’s main event–the Grand-Guignol-meets-the-Keystone-Kops tragic-comedy commonly referred to as SONGS, or the San Onofre Nuclear Generating Station.

San Onofre sits on the California coast, about halfway between San Diego and Los Angeles, and has a long, infamous history of construction screw-ups, safety breaches, lax reporting, falsified records and unusual events. Unit 1 was brought online in 1968–and decommissioned 25 years later; Units 2 and 3 started up in the early ’80s, and are still operating today. . . .

Well, uh, about that. . . .

Officials at the San Onofre nuclear power plant shut down one of the facility’s two units Tuesday evening [January 31] after a sensor detected a possible leak in a steam generator tube.

The potential leak was detected about 4:30 p.m., and the unit was completely shut down about an hour later, Southern California Edison said.

The next day, SCE revealed that yes, indeed, it was a leak that caused them to scram Unit 3, and that they were dealing with it by “reducing pressure“. . . which other people might call “venting.” SONGS is also a PWR, and this leak was also in the loop that spins the turbines and not the one that runs through the reactor, but as noted above, that system still contains some radionuclides. Edison does admit to the release of some radiation, though they make the same “no threat/no harm” assertions common to the other unusual events.

Beyond the usual pushback on that “no harm” claim, it should also be noted here that the leak did no occur in the reactor’s sealed containment building, but in an auxiliary building. . . with doors. . . and people that go in and out through those doors. . . so the question is not whether some radiation escaped into the atmosphere, but “how much?”

But that’s not the scary part.

The leak occurred in Unit 3, and so that had to be shut down, but Unit 2 was already down–offline for two months of refueling and repair. However, the accident in Unit 3 prompted quite the revelation about Unit 2:

Unusual wear has been found on hundreds of tubes that carry radioactive water at Southern California’s San Onofre Unit 2 nuclear plant, raising questions about the integrity of equipment the company installed in a multimillion-dollar makeover in 2009.

. . . .

The problems at Unit 2 were discovered during inspections of a steam generator, after the plant 45 miles north of San Diego was taken off-line for maintenance and refueling. The two huge steam generators at Unit 2, each containing 9,700 tubes, were replaced in fall 2009, and a year later in its twin plant, Unit 3, as part of a $670 million overhaul.

According to the Nuclear Regulatory Commission, more than a third of the wall had been worn away in two tubes at Unit 2, which will require them to be plugged and taken out of service. At least 20 percent of the tube wall was worn away in 69 other tubes, and in more than 800, the thinning was at least 10 percent.

This level of wear might be typical to systems in use for several decades–still not comforting, considering the age of America’s nuclear plants–but to see this degradation in virtually new tubes gives one pause. . . especially one Joram Hopenfeld, retired NRC engineer and researcher:

“I’ve never heard of anything like that over so short a period of time,” Hopenfeld said.

“The safety implications could be very, very severe,” Hopenfeld added. “Usually the concern is in older steam generators, when they have cracks all over the place.”

According to the regulatory commission, the tubes have an important safety role because they represent one of the primary barriers with the radioactive side of the plant. If a tube breaks, there is the potential that radioactivity from the system that pumps water through the reactor could escape into the atmosphere.

About two-thirds of US reactors are of similar design to those at SONGS.

That’s the scary part.

It is scary, of course, because it raises questions about the manufacturing, the installation, and the maintenance of the $670 million rehab at San Onofre–but it also should raise concerns about the repairs, refurbishments and retrofits at dozens of other domestic facilities.

And it also provides another object lesson on the real costs of nuclear power. To put it in context, the San Onofre makeover cost $135 million more than the much-maligned federal loan guarantee extended in 2009 to the now-defunct solar panel manufacturer Solyndra Corporation. (And, unlike it could ever be for a nuclear loan guarantee, the federal government will recoup most of the Solyndra money when company assets are sold.)

Atomic energy advocates will argue that while construction costs are high, once built, nuclear plants run pretty much round-the-clock–24/7/365, as they say.

Except, of course, as the events just described or any of the dozens of other incidents documented here over the last year show, they don’t. Right now, SONGS is generating zero power. None. The same can be said for Wolf Creek, and one of the two reactors at Byron. The Palisades plant in Michigan was shut down five times last year. Ohio’s Davis-Besse facility, offline much of 2011 because of major repairs and a series of questions about cracks in the reactor building, was just given the green light to restart by the NRC, despite the objections of many nuclear watchdogs and US Rep. Dennis Kucinich (D-OH).

Reactors at North Anna, VA, Calvert Cliffs, MD, and Fort Calhoun, NE, were all offline for substantial amounts of time in 2011. A swarm of jellyfish took out Florida’s St. Lucie nuclear plant for several days last summer, and Crystal River, also in Florida, has not produced so much as a single kilowatt in almost two-and-a-half years. And it likely won’t produce any more until 2014 at the earliest, assuming Florida ratepayers pony up another $2.5 billion for repairs.

All of which again underscores that nuclear power is not just phenomenally expensive in every phase of its life, it is an expense always born by ratepayers and taxpayers. And that, of course, just refers to the financial costs.

Those tritium leaks will take some toll on the health of residents in regions near Byron and SONGS, though it will debated just how much. Less debatable now–thanks to a French study released, yes, in January–the everyday dangers of having a nuclear facility in your general area:

In a report certain to cause fear and loathing in the global nuclear industry, an eminent French research institute published a study in the International Journal of Cancer, which notes increased rates of leukemia in children living close to French nuclear power plants (NPPs.)

How much greater?

The study by the Institut National de la Sante et de la Recherche Medicale (French Institute of Health and Medical Research, or INSERM) found a leukemia rate twice as high among children under the age of 15 living within a 3.1-mile radius of France’s 19 nuclear power plants.

France, of course, has a universal health plan, so those costs will directly hit their national budget. The US does not embrace a similar level of responsibility for the health of its citizens, but the costs of increased numbers of childhood cancers will ripple through the economy all the same (well, in reality, even more then all the same).

Still feeling nuclear power’s worst year is behind it?

But, wait, there’s more–a sort of microcosmic calamity to put a grace note on nuclear’s macro-farce: A few days before the leak and the revelations about tube decay, an Edison employee at San Onofre fell into a fuel storage pool while trying to retrieve a dropped flashlight. The worker was not injured in the fall, though he did ingest some unspecified amount of radioactive water–but (and you know what’s coming here. . . wait for it. . . wait for it) SCE said the man “did not suffer harmful radiation exposure.”

Welcome to 2012. One mensis horribilis down, 11 to go.

Aftershocking: Frontline’s Fukushima Doc a Lazy Apologia for the Nuclear Industry

There is much to say about this week’s Frontline documentary, “Nuclear Aftershocks,” and some of it would even be good. For the casual follower of nuclear news in the ten months since an earthquake and tsunami triggered the massive and ongoing disaster at Japan’s Fukushima Daiichi nuclear power station, it is illuminating to see the wreckage that once was a trio of active nuclear reactors, and the devastation and desolation that has replaced town after town inside the 20-kilometer evacuation zone. And it is eye-opening to experience at ground level the inadequacy of the Indian Point nuclear plant evacuation plan. It is also helpful to learn that citizens in Japan and Germany have seen enough and are demanding their countries phase out nuclear energy.

But if you are only a casual observer of this particular segment of the news, then the Frontline broadcast also left you with a mountain of misinformation and big bowl-full of unquestioned bias.

Take, for example, Frontline correspondent Miles O’Brien’s cavalier treatment of the potential increase in Japanese cancer deaths, courtesy of the former property of the Tokyo Electric Power Company (TEPCO):

MILES O’BRIEN: When Japanese authorities set radiation levels for evacuation, they were conservative, 20 millisieverts per year. That’s the equivalent of two or three abdominal CAT scans in the same period. I asked Dr. Gen Suzuki about this.

[on camera] So at 20 millisieverts over the course of a long period of time, what is the increased cancer risk?

GEN SUZUKI, Radiation specialist, Nuclear Safety Comm.: Yeah, it’s 0.2— 0.2 percent increase in lifetime.

MILES O’BRIEN: [on camera] 0.2 percent over the course of a lifetime?

GEN SUZUKI: Yeah.

MILES O’BRIEN: So your normal risk of cancer in Japan is?

GEN SUZUKI: Is 30 percent.

MILES O’BRIEN: So what is the increased cancer rate?

GEN SUZUKI: 30.2 percent, so the increment is quite small.

MILES O’BRIEN: And yet the fear is quite high.

GEN SUZUKI: Yes, that’s true.

MILES O’BRIEN: [voice-over] People are even concerned here, in Fukushima City, outside the evacuation zone, where radiation contamination is officially below any danger level.

There was no countervailing opinion offered after this segment–which is kind of disgraceful because there is a myriad of informed, countervailing opinions out there.

Is 20 millisieverts (mSv) a year a conservative limit on exposure? Well, the Nuclear Regulatory Commission says the average annual dose for those living in the United States is 6.2 mSv, half of which is background, with the other half expected to come from diagnostic medical procedures. And according to the International Atomic Energy Agency (IAEA), the maximum additional dose for an adult before it is considered an “unacceptable risk” is one millisievert per year.

Then, to assess the cancer risk, O’Brien, practically in the same breath, changes exposure over a single year to “over the course of a long period of time”–an inexcusable muddying of the facts. One year for those who must live out their lives in northern Japan might wind up seeming like a long period of time, but it would actually be a small fraction of their lifetimes, and so would present them with only a fraction of their exposure.

So, is Dr. Gen Suzuki assessing the increased cancer risk for 20 mSv over a lifetime, a long time, or just one year? It is hard to say for sure, though, based on his estimates, it seems more like he is using a much longer timeframe than a single year. But even if his estimate really is the total expected increase in cancer deaths from the Fukushima disaster, what is he talking about? Miles O’Brien seems almost incredulous that anyone would be showing concern over a .2 percent increase, but in Japan, a .2 percent increase in cancer deaths means 2,000 more deaths. How many modern nations would find any disaster–natural or manmade–that resulted in 2,000 deaths to be negligible? For that matter, how many of the reporters, producers or crew of Frontline would feel good about rolling the dice and moving their family into an area that expects 2,000 additional fatalities?

Further, the exchange doesn’t say anything about the person who is supposed to casually endure the equivalent of three abdominal CAT scans a year (something no respectable professional would recommend without some very serious cause). The effects of radiation exposure on children are quite a bit different from the effects of the same exposure on adults–and quite a bit more troubling. And young girls are more at risk than young boys. Though the Frontline episode features many pictures of children–for instance, playing little league baseball–it never mentions their higher risks.

Also missing here, any mention that in a country now blanketed north to south in varying levels of radioactive fallout, radiation exposure is not purely external. The estimates discussed above are based on an increase in background radiation, but radioactive isotopes are inhaled with fallout-laden dust and dirt, and consumed with food from contaminated farmlands and fisheries. Outcomes will depend on the isotopes and who consumes them–radioactive Iodine concentrates in the Thyroid and has a half life of a couple of weeks; Cesium 137 tends to gravitate toward muscle and has a half-life of about 30 years. Strontium 90, which concentrates in bones, lasts almost as long. The affect of all of this needs to be factored in to any estimates of post-Fukushima morbidity.

So, as one might imagine, Dr. Suzuki’s cancer estimate, be it from his own deliberate downplay or O’Brien’s sloppy framing, is widely disputed. In fact, a quick survey of the literature might call the estimate in Frontline an absurdly low outlier.

By way of example, take findings compiled by Fairwinds Associates, an engineering and environmental consulting firm often critical of the nuclear industry. Using data from the National Academy of Science’s report on the Biological Effects of Ionizing Radiation (BEIR), Fairwinds explains that one in every 100 girls will develop cancer for every year they are exposed to that “conservative” 20 mSv of radiation. But Fairwinds believes the BEIR also underestimates the risk. Fairwinds introduces additional analysis to show that “at least one out of every 20 young girls (5%) living in an area where the radiological exposure is 20 millisieverts for five years will develop cancer in their lifetime.”

It should be noted here that five years of 20 mSv per year would equal 100 mSv lifetime exposure–the newly revised lifetime maximum set by Japan after the start of the Fukushima nuclear disaster. And some cities in northern Japan, uncomfortable with this blanket prescription, have set limits for children at one millisievert per year.

None of this information was hard to find, and all of it stems from data provided by large, respected institutions, yet, for some reason, O’Brien and Frontline felt content to let their single source set a tone of “no big deal.” Worried Japanese residents featured just after the interview with Dr. Suzuki are portrayed as broadly irrational, if not borderline hysterical.

The dismissive tenor of the medical segment carries over to several other parts of “Nuclear Aftershocks.” Take Frontline’s assessment of the German reaction to the meltdowns at Fukushima Daiichi. Chancellor Angela Merkel’s government has pledged to entirely phase out their reliance on nuclear power within the next decade. O’Brien call this decision “rash” and “hasty,” and he doesn’t qualify those adjectives as the viewpoint of one expert or another; instead, he uses them matter-of-factly, as if everyone knows that Germany is a nation of jittery, irresponsible children. The political reality–that the German government is actually pursuing a policy that is the will of the people–is treated as some sort of abomination.

Japanese anti-nuclear protestors get similar treatment from Frontline. That large demonstrations like those seen over the last ten months are a rare and special occurrence in Japan is not considered. Instead, the documentary, time and again, hints at a shadowy doomsday somewhere in the near future, a sort of end-of-civilization scenario caused by an almost instant cessation of nuclear power generation. Indeed, as the program ends, O’Brien declares that every nuclear plant in Japan will be shut down by May–and as he says this, the camera peers out the window of a slow-moving elevated train. The view is a darkened Japanese city, and as O’Brien finishes his monologue, the train grinds to a halt.

Ooh, skeddy. Was this Frontline, or Monster Chiller Horror Theater?

Yes, the end seemed that absurd. “Nuclear Aftershocks” paints a picture many members of both the nuclear and fossil fuels lobbies would love to have you believe: a sort of zero-sum, vaguely binary, cake-or-death world where every possible future holds only the oldest, dirtiest and most dangerous options for electrical power generation. You get coal, you get gas, or you get nuclear–make up your mind!

But the show, like the handmaidens of those out-dated technologies, perverts the argument by glossing over the present and omitting choices for the future. As much as many concerned citizens would like to see nuclear power disappear overnight, it will not. Germany is giving itself a decade, the US is looking to run its aging reactors for another twenty years, and even Japan, dream though they might, will likely not decommission every reactor in the next four months. There is a window–big or small depending on your point of view–but a decided period of time to shift energy priorities.

Even the nuclear advocates who appear on Frontline call nuclear power “a bridge”–but if their lobby and their fossil fuel-loving brethren have their way, it will likely be a bridge to nowhere.

“Nuclear Aftershocks” does mention Germany’s increased investment in a wind- and solar-powered future, but the show calls that shift “a bold bet” and “a risk.”

Likely the producers will argue they did not have time for a deeper exploration, but by allowing fissile and fossil fuel advocates to argue that renewables cannot meet “base load” requirements, while failing to discuss recent leaps forward in solar and wind technology, or how well Japan’s wind turbines weathered the Tohoku quake and tsunami–or, for that matter, how much Japanese citizens have been able to reduce their electrical consumption since then through basic conservation–Frontline’s creators are guilty of flat-earth-inspired editing.

Indeed, missing from almost every discussion of the future of power generation is how much we could slow the growth in demand through what is called efficiencies–conservation, passive design, changes in construction techniques, and the replacement and upgrading of an aging electric infrastructure. The Frontline documentary highlights some of the potential risks of an accident at New York’s Indian Point nuclear generating station, but it contrasts that concern with nearby New York City’s unquenchable thirst for electricity. Missing entirely from the discussion: that New York could make up for all of Indian Point’s actual output by conserving a modest amount and replacing the transmission lines that bring hydroelectric power from the north with newer, more efficient cable.

No single solution is a panacea for every region of the globe, but many alternatives need to be on the table, and they certainly ought to be in any discussion about the “aftershocks” of nuclear’s annus horribilis. It should be seen as impossible to evaluate nuclear energy without considering the alternatives–and not just the CO2-creating, hydrofracking alternatives that are the standby bugbear of those infatuated with atomic power. Coal, gas, and nuclear are our links to the past; renewables and increased efficiency are our real bridge to the future. Just as it is dishonest to evaluate the cost of any of the old-school energy technologies without also considering environmental impact and enormous government subsidies–and now, too, the costs of relocating hundreds of thousands or millions of people and treating untold numbers of future health problems–it is also misleading to treat energy funds as permanently allocated to entrenched fuels.

The billions pledged to the nuclear industry by the Obama administration dwarf the budgets and tax incentives for conservation, alternative fuels, and green technology innovation combined. Factor in the government-shouldered costs of cleanup and waste storage, not to mention the sweetheart deals granted to the hydrocarbon crowd, and you could put together a program for next-generation generation that would make the Manhattan Project look like an Our Gang play (“My dad has an old barn!” “My mom can sew curtains!”).

It is a grave disappointment that Frontline couldn’t take the same broad view. The producers will no doubt argue that they could only say so much in 50 minutes, but like Japan, Germany, and the United States, they had choices. For the governments of these industrialized nations, the choices involve their energy futures and the safety of their citizens; for the Frontline crew, their choices can either help or hinder those citizens when they need to make informed choices of their own. For all concerned, the time to make those choices is now.

It is a shame that “Nuclear Aftershocks” instead used its time to run interference for a dirty, dangerous and costly industry.

The Party Line – December 30, 2011: The Party Line, Nuclear Style

As we close out 2011, readers of this space will likely not be surprised to hear the following:

  • The crisis at Japan’s Fukushima Daiichi nuclear facility continues and continues to poison the planet;
  • Accidents and events at nuclear reactors across the United States continue at a headshaking pace (something goes wrong somewhere pretty much weekly);
  • The nuclear industry continues its full-court press against any new safety rules that might spring from lessons learned from Fukushima or the domestic events;
  • Industry-friendly regulators continue to help slow-walk new rules while also working with allies in Congress to oust the slightly more safety-minded Nuclear Regulatory Commission chair, Gregory Jaczko;
  • Chairman Jaczko continues to hope his faith in a moderate path and a captured regulatory agency will guarantee a safe nuclear future and help save his job; and
  • All of this has happened before.

Last point first: Ryan Grim has a great follow-up on this month’s attempted coup at the NRC–where four commissioners, in coordination with members of congress and nuclear industry lobbyists, have gone public with complaints about the NRC chairman, Greg Jaczko. While the commissioners have stopped short of calling for Jaczko to step down, several GOP congressmen are pressing for just that result.

As Grim reports in the Huffington Post, the effort to oust Jaczko not only continues in the wake of two congressional hearings on the matter, the whole ugly putsch closely resembles moves in the 1990s to discredit another regulation-minded nuclear regulator. And the stories even include some of the same players.

Like with the current “scandal,” the plot is not a simple one to summarize (so please read Grim’s detailed story), but the highlights include a former National Resources Defense Council scientist, Terry Lash, who was appointed by the Clinton administration to run the Department of Energy’s Office of Nuclear Energy, his deputy, one William Magwood, and a staffer for the very nuke-industry-financed Sen. Pete Domenici (R-NM) named Alex Flint.

Thanks to an exploited possible gaffe in protocol and the coordinated work of Domenici, Magwood and Flint, Terry Lash was eventually pushed aside. And Magwood would take over the nuclear division at DOE, first as acting director, and then, under George W. Bush, as the office’s permanent head.

And yes, you’ve read two of those names here before. Bill Magwood is a commissioner at the NRC, a former consultant to the nuclear industry, and one of the most vocal critics of Chairman Jaczko. Alex Flint has run through the classic DC regulatory revolving door, moving between Senate staffer, nuclear industry lobbyist and back, most recently settling in as the top lobbyist for the Nuclear Energy Institute (NEI), the industry’s largest trade association.

The story is as troubling as it is tired. A government agency manipulated by the industry it is supposed to regulate. An industry, protected by bought politicians, avoids accountability while profiting from government largess. Some of that profit is then turned around to lobby and buy another administration’s worth of officials.

And an agency chief who is maybe too slow to realize that the industry and its surrogates will work relentlessly to undermine him and the regulatory body he tries to command.

The lessons here seem obvious and familiar. . . and yet they seem to be lost on so many.

It has been all-too-rare to see broad coverage of the US nuclear industry in the establishment press, yet, during the first week of December, nearly every news organ was Johnny-on-the-spot, repeating the industry storyline. Gregory Jaczko, it seems, was a temperamental leader, so difficult to work with that the NRC’s mission had been compromised.

Beyond the unremarked upon humor inherent in seeing Republican Senators and Representatives suddenly so concerned with nuclear safety, Jaczko himself provided under-reported frame-relief by proving so difficult to work with that he was able to secure the NRC’s unanimous approval of the new Westinghouse AP1000 reactor (despite some very serious concerns about that design and no financial support for construction without billions in federal loan guarantees). And the rest of the commission was able to out-vote Jaczko, four to one, to fast-track the construction and licensing of the new reactors, slated for plants in Georgia and South Carolina.

But perhaps most remarkable is that despite the industry push-back and power-politics, Jaczko still seems to think and act as if nuclear power can be regulated to a safe and prosperous future. The viciousness of the industry attacks and the seriousness of the events of nuclear’s annus horribilis should really disabuse him of that notion.

And the horrible year is not yet over. The last two weeks have seen the first of the debris from the Japanese tsunami hitting US shores, Pacific seals being tested after showing up in Alaska with skin lesions and other symptoms consistent with radiation poisoning, and a report from the International Journal of Health Services linking some 14,000 excess deaths in the US to the fallout from the Fukushima reactors.

Then there is the Japanese interim report on their nuclear disaster describing a regulatory agency unable and unwilling to take control of the crisis. There is the Tokyo Electric Power Company (TEPCO) contention that they are not legally responsible for fallout once it lands on someone else’s property. And here in the United States, there was a valve leak at Mass Pilgrim, a condenser leak at New York’s Fitzpatrick plant, and an event at Vermont Yankee where both of the cooling system’s backup power generators were offline at the same time.

Still, the nuclear industry pushes the notion of an impending nuclear renaissance. It wasn’t true before Fukushima, and it certainly isn’t true after, but with even their supposed nemesis on the NRC helping them build new reactors and relicense old ones, why not keep working the system?

As noted here (but few other places), the December hearing before the Senate Environment and Public Works Committee that was so dominated by the Jaczko cause célèbre was originally scheduled months earlier to track the progress of recommendations from the Fukushima taskforce. An August admonition from Sen. Barbara Boxer (D-CA) seemed to move the commissioners to put some of the recommendations on what passes for a fast track at the NRC, but even that has now been reversed by a majority of commissioners who voted themselves the ability to reject the very rules they previously ordered up. But all the attention in oversight hearings has been focused on Jaczko and his management style–learning the lessons of Fukushima and how that might improve US nuclear safety has been less than a footnote.

So, though Jaczko continues in his job with the public support of the White House, the nation’s regulatory agenda has already been altered. The nuclear industry may not yet have their head, but they’ve demonstrated they own the body.

And now a new year is upon us. The flip of the calendar will not wrap up the Fukushima disaster any more than it will end the parade of lesser events at American nuclear facilities. The nuclear industry will not decide to embrace safety upgrades and stricter regulation any more than the financial community will embrace nuclear power as a good risk. And no matter how many moves Gregory Jaczko makes in the direction of Bill Magwood or his industry masters, neither will ever like him. . . or consider calling off their well-practiced campaign to oust him.

Happy New Year.

You Could Even Say It Glows: NRC Votes to Fast-Track a More Dangerous Nuclear Future

To paraphrase the United States Nuclear Regulatory Commission, Merry Effin’ Christmas.

In a news dump that came a day early (because who really wants to dump on Christmas-Eve Eve?), the Nuclear Regulatory Commission made a pair of moves Thursday that could have significant consequences for America’s nuclear industry–and all the people who have to live with it.

First, the Westinghouse AP1000 reactor design got the big thumbs up:

The Nuclear Regulatory Commission unanimously approved a radical new reactor design on Thursday, clearing away a major obstacle for two utilities to begin construction on projects in South Carolina and Georgia.

Whoa–let’s stop it there for a sec. . . . A “radical new reactor design?” Somebody’s being a good little scribe this Christmas. As previously discussed, there is nothing radical about the AP1000–it’s a tweak on the generations-old pressurized water reactor design that theoretically would allow the core to avoid a meltdown in the event of a total loss of AC power. . . .

Well, for 72 hours, anyway.

After that, the manufacturer–in reality the Japanese owner of Westinghouse, Toshiba–says something about it taking only “minimal operator effort” to avert disaster.

Keep in mind that the AP1000 was designed well before the Japanese earthquake and tsunami that started the ongoing Fukushima disaster, but this approval, of course, comes well after.

Designers of the AP1000 assert that gravity and convection will serve to keep reactor cooling functioning even if systems are disabled as they were at Fukushima. That assertion is predicated on the storyline that the Daiichi plant’s safety systems survived the massive quake, and only ran into trouble when the tsunami flooded and disabled the diesel backup generators that powered cooling systems for the reactors and the spent fuel pools.

That is a capricious assertion for two very disturbing reasons:

First, it is by no means established fact that Fukushima’s cooling systems survived the earthquake undamaged. Reports from the Japanese government and TEPCO, Fukushima Daiichi’s owner-operator, have gone back and forth on this matter. It would be naturally beneficial to nuclear advocates to go with the story that the quake did nothing to the reactor and its safety systems. But given the visible damage to the plant and the surrounding area, and given the profound leaking of cooling water that has continued seemingly unabated from the earliest days of the disaster, it is hard to believe all pipes, tubes, couplings, fittings, vents and valves–not to mention the containment vessels and tanks themselves–remained watertight after the massive temblor.

Second, the earthquake worthiness of the AP1000, itself, has been officially questioned by senior NRC officials and Rep. Ed Markey (D-MA), the Ranking Member of the House committee charged with overseeing nuclear regulation:

Just days before the earthquake in Japan, Rep. Markey wrote a letter to the NRC urging the Commission not to approve the Westinghouse AP1000 design until serious safety concerns were addressed. One of NRC’s longest-serving staff, Dr. John Ma, had warned in NRC documents that the reactor’s containment could shatter “like a glass cup” due to flaws in the design of the shield building if impacted by an earthquake or commercial aircraft. The shield building has the critical safety function of preventing damage to the reactor that could cause fuel meltdowns and radiation releases.

Note, Dr. Ma has been with the NRC since its inception, and this was the first non-concurrence dissent of his career. The NRC acknowledged this concern and asked Westinghouse for a response. . . and the response was, essentially, “nah-ah.” A response that has now proven good enough for the agency tasked with assuring the safety of America’s nuclear reactors.

So, it theoretically would be great if the AP1000 were able to survive without melting down through three days without electrical power–though it should be noted that three days wouldn’t have really saved Fukushima’s bacon (even if it had remained intact) given the devastation to the region’s infrastructure. But that semi-sunny selling point on the AP1000 assumes that there would still be a reactor containment building to cool.

It is the kind of “what could possibly go wrong” assumption that has tripped up nuclear power generation in large and small ways throughout its history–and it is stunning that, especially in the wake of the Japanese crisis, this cavalier attitude continues.

But perhaps it is not so surprising when we consider just why the AP1000 has such a novel/brittle containment building: it is supposedly cheaper to build.

The AP1000 is slated to have a smaller footprint with fewer components, but still use off-the-shelf, previous-generation parts. Most notably, the design uses under a fifth the amount of concrete and rebar, compared with existing PWRs.

Not convinced that economics is the real driving force behind this “innovation?” Take a look at the other action the NRC announced Thursday:

In an unusual step, the commission waived the usual 30-day waiting period before its approval becomes official, so its decision will be effective in about a week. That moves the utilities closer to the point where they can start pouring concrete for safety-related parts of the plant.

The decision also moves the industry toward the first test of a streamlined procedure in which the commission will issue a combined construction and operating license. Up to now reactors had to obtain a construction license and then undergo a long wait for an operating license, resulting in expensive delays in starting up reactors that had essentially been completed.

The approval of a shaky design is disturbing, but the approval of a process that will allow that design to move to completion and operation with far fewer pauses to test safety is unconscionable. (And the fact that this happening because of bottom-line concerns is criminal.) As the distinguished gentleman from Massachusetts put it:

“Today, the NRC has presented its holiday gifts to the nuclear industry,” said Rep. Markey, top Democrat on the House Natural Resources Committee and a senior member of the House Energy and Commerce Committee. “Instead of doing all they should to protect nuclear reactors against seismically-induced ground acceleration, these Commissioners voted to approve the acceleration of reactor construction. While they continue to slow walk the implementation of recommendations of the NRC professional staff’s Near-Term Task Force on Fukushima, they have fast-tracked construction of a reactor whose shield building could ‘shatter like a glass cup’ if impacted by an earthquake or other natural or man-made impact.”

And it is important to mention that the approval of this accelerated process came over the objections of NRC Chairman Gregory Jaczko–who just last week faced both House and Senate panels questioning his leadership style–but the certification of the AP1000 design did not. In fact, at the same time news of the Jaczko witch hunt was blocking out the sun, the NRC chair was actually working with other commissioners–the ones who sent a letter to the White House saying Jaczko was impossible to work with–to secure the unanimous OK for the new reactor.

It is not the first time those wary of a nuclear renaissance had been presented with the dilemma of both praising and cursing Jaczko. In fact, just last week, on December 15, Jaczko was the only vote in support of a move to make all recommendations of the post-Fukushima Near-Term Task Force report mandatory for the “adequate protection” of nuclear power plants. The four other NRC commissioners asserted that it was “premature” to make such a rule–and so Fukushima’s lessons continue to go unlearned, over Jaczko’s protestations and lonely protest vote.

But it is just this sort of nightmare-inducing nuclear mollycoddling that should convince Jaczko that the process he has often praised is deeply flawed. He cannot advocate for new safety rules one week and then grant license to the industry that works so hard against those rules the next. Not if he really wants change; not if he really cares about public safety.

Gregory Jaczko Has a Cold

NRC Chairman Gregory Jaczko (photo: pennstatelive)

In April 1966, Esquire Magazine published a story by Gay Talese that is still considered one of the greatest magazine articles of all time; the article, the cover story, was titled “Frank Sinatra Has a Cold.”

The piece, still very much worth the read, says much about celebrity, journalism, and, of course, celebrity journalism, but germane here is a point Talese makes early on: for most people, having a cold is a trivial matter–after all, it’s called the “common” cold–but when a man, a cultural icon, a giant of stage and screen like Sinatra (remember, this is 1966) has a cold, well. . . .

Frank Sinatra with a cold is a big deal. It affects him, his mood, his ability to perform, and so it affects his friends, his entourage, his personal staff of 75, his audience, and perhaps a part of the greater popular culture. In other words, as Talese wants you to understand, in this case, a cold is anything but trivial.

Gregory Jaczko, the chairman of the United States Nuclear Regulatory Commission, made some comments to the press earlier this week. Jaczko, it seems, is worried. He believes, as noted in an Associated Press story, that “U.S. nuclear plant operators have become complacent, just nine months after the nuclear disaster in Japan.” The NRC head thinks that a slew of events at over a dozen domestic nuclear facilities reveal the safety of America’s reactors to be something less than optimal.

To be clear, safety concerns at any kind of plant, be it a soda bottler or a microchip manufacturer, are probably not trivial, but when the safe and secure operation of a nuclear facility comes into question–as the aftermath of Chernobyl or the ongoing crisis in Japan will tell you–it ratchets up concern to a whole different level. So, when the man who more or less serves as the chief safety officer for the entirety of the nation’s nuclear infrastructure says he’s worried, many, many other people should be worried, too.

To put it another way, Greg Jaczko has a cold.

But that’s not the scariest part.

When Frank Sinatra had a cold, he knew he had a cold–pretty much everyone knew he had a cold. It was unpleasant for all of them, but forewarned is forearmed. Jaczko, though, doesn’t know–or won’t acknowledge–he’s sick. As relayed by the AP:

Jaczko said he was not ready to declare a decline in safety performance at U.S. plants, but said problems were serious enough to indicate a “precursor” to a performance decline.

Pardon my acronym, but WTF does “‘precursor’ to a performance decline” mean?

It sounds like a way to talk about erectile dysfunction, but perhaps a more accurate analogy is to say that Greg Jaczko has just told us that, yes, actually, you can be a little bit pregnant.

Of course, that is not true. Either safety–with regards to protocols, equipment and people–is up to snuff, or it is not. As Jaczko observes–and the many “unusual events” he has had to deal with this year make clear–the safety of America’s nuclear reactors is not where it needs to be:

Mr. Jaczko said the NRC has noticed an increase in “possible declines in performance” at some U.S. nuclear facilities, including instances of human error that almost exposed workers to high levels of radiation. He said a number of nuclear plants have experienced safety challenges in recent months, and that two of the plants were having significant issues.

The chairman’s classic understatement here is magnified by the Wall Street Journal. Beyond the fact that “possible declines in performance” means flat-out “declines in performance,” the human error referred to here didn’t “almost” expose workers to high levels of radiation–the accidents at Cooper Nuclear Station in Nebraska and the Perry Nuclear Power Plant in Ohio most definitively exposed workers to high (and possibly dangerously high) levels of radiation.

And the two plants having significant issues–which would those be? Would they be Crystal River in Florida, where news of a third major crack in the containment building recently came to light, and Nebraska’s Fort Calhoun, which is still shut down after flooding earlier this year? Or might they be New Hampshire’s Seabrook, where crumbling concrete was discovered in November, a month after the plant had to shut down because of low water levels, and Vermont Yankee, where radioactive tritium continues to leak into the Connecticut River?

Or maybe Jaczko was referencing North Anna, which of course scrammed when the Mineral Springs, VA, earthquake shook the reactors well in excess of their designed tolerances. Or maybe he’s including Calvert Cliffs in Maryland, where a piece of siding blown off by Hurricane Irene shorted a transformer, and the resulting loss of power to safety systems caused its reactor to scram. And who can forget Michigan’s Palisades nuclear power plant, which had to vent radioactive steam when it scrammed after worker error triggered a series of electrical issues?

Is it possible the NRC head was thinking of the constantly troubled Davis-Besse plant near Toledo, Ohio? Probably not–since the Commission just (as in 4:40 PM on Friday, December 2) okayed a restart there, despite serious concerns about numerous cracks in its shield building. But perhaps Jaczko should think again–on December 7, one day after the reactor restart, FirstEnergy, Davis-Besse’s operator, admitted that they had withheld news of new cracks on a different part of the structure, which were discovered in November. (FirstEnergy says that they only withheld the information from the public, and that they did report it to regulators–which raises grave questions about the honesty, independence and competency of the NRC and how it could approve a restart.)

Representative Dennis Kucinich, by the way, is thinking of Davis-Besse. The Ohio Democrat had called for public hearings in advance of the restart, and is now criticizing both FirstEnergy and the NRC for their lack of candor about the new cracking.

Kucinich appears to understand something that Jaczko does not: when it comes to oversight of the nuclear industry, there is no room for even the germ of a doubt.

To extend the illness-as-metaphor metaphor a little further, there is a construction often used to imply the broadly felt repercussions of a single action or a major actor: When “x” sneezes, “y” catches a cold. The phrase is believed to have started during the worldwide depression that spread after the U.S. stock market crash of 1929–as in, “When America sneezes, the whole world catches cold.” The cliché has come back into vogue during the last three years of global economic tumult, but it could easily be adapted to the ongoing perils of nuclear power.

On November 26, the Asahi Shimbun gave the world another measure of just how big a disaster the ongoing crisis at the Fukushima Daiichi nuclear facility has become:

Radioactive substances from the crippled Fukushima No. 1 nuclear power plant have now been confirmed in all prefectures, including Uruma, Okinawa Prefecture, about 1,700 kilometers from the plant, according to the science ministry.

The ministry said it concluded the radioactive substances came from the stricken nuclear plant because, in all cases, they contained cesium-134, which has short half-life of two years.

Before the March 11 Great East Japan Earthquake, radioactive substance were barely detectable in most areas.

Or, it could be said, when Fukushima sneezed, all of Japan caught a cold.

And not just Japan, of course. Fallout from Fukushima has drifted halfway around the world. Radioactive isotopes directly linked to Japan’s crippled reactors have been detected in milk and vegetables across the U.S. and Canada. And the Pacific Ocean, too, has been contaminated–and continues to be more so. December brings news of new leaks sending more radioactive runoff from the Japanese reactors into the sea. Tens of thousands of tons of overspill have already flowed into the waters around Japan’s northeastern coast–bringing levels of radioactivity to thousands of times what is considered acceptable–and TEPCO, still nominally the Fukushima’s operator, just had to scrap plans to dump untold tons more after protests from Japanese, Chinese, and Korean fishing concerns. (The contaminated water, still collecting at the plant at a rate of 200 to 500 tons a day, will exceed the facility’s 155,000-ton storage capacity by March.)

The effects of bioaccumulation–as dangerous isotopes move with global tides, and contaminated fish (and their contaminated predators) migrate–presents scientists with a long-term research project where much of the world’s population will serve as unwilling subjects.

And, as has been noted here many times, the crisis is far from over. Even TEPCO’s own conservative (or is that “dishonest?”) models now confirm a core melt-through in reactor 1. TEPCO officials insist that somehow they will cool the surrounding steel or concrete enough to stop the molten corium from going further, but the architect of Fukushima Daiichi Reactor 3, Uehara Haruo, sees things very differently. As relayed by Kevin Kamps of Beyond Nuclear, Haruo says:

It is only a matter of time before the molten core, at least of Unit 1–if not Units 2 and 3–does reach ground water, and if it hits it right. . . you’re going to have a powerful steam explosion.

And, as Kamps explains, that steam explosion will again send massive amounts of radiation into the atmosphere. As longtime nuclear activists Paul Gunter recently put it, “It’s pins and needles time,” implying that while much is unknown about what is going on inside the destroyed reactors, nothing indicates TEPCO is gaining the upper hand on this dire situation.

Yet, with all this–with the spreading fallout, the continuing radioactive water leaks, and the real threat of what so many refer to as a “China Syndrome” event–NRC Chair Jaczko worries that the U.S. nuclear industry has become complacent about the safety gaps highlighted by the Fukushima disaster. Given the evidence–and given that the NRC itself spent all summer studying the crisis and drafting recommendations based on “lessons learned”–it is hard to believe complacency is really the problem. It is probably even too generous to say that the industry suffers from willful ignorance. No, when considering the contagion spreading from Japan and the coughs and hiccups that are practically weekly here in the United States, it is probably more accurate to say that the profit-driven, government-protected nuclear sector is actively callous.

The risks, after all, of the nuclear business model are not borne by power companies. In the U.S., federal loan guarantees, state tax breaks and utility rate hikes insulate nuclear operators from the costs of slipshod construction, poor training, and malign management. Even without that, perhaps the only lesson the domestic nuclear industry will choose to learn from Fukushima is that when a catastrophe like this happens, the government is given no choice but to step in. (Beyond the price of the cleanup, and the healthcare and relocation of those in severely contaminated regions, note how TEPCO’s stock price fell all week after word leaked that the Japanese Government would buy $13 billion worth of new shares.)

So, what’s a chief regulator to do? Given the overwhelming evidence of industry arrogance in the face of real danger, Jaczko could have an “I am Hamlet, Prince of Denmark” moment, seize his birthright, as it were, and actually demand compliance from the industry he has been tasked to oversee–but, judging from his tone in many interviews, and the continuing approvals of new and renewed operating licenses, it seems more like the NRC chief will remain the Hamlet of the first four acts of the play.

WWSD–What Would Sinatra Do? Read through the Esquire piece and see how, despite his froggy throat and foul mood, Sinatra takes control of his world. In the end, as Sinatra drives his Karmann Ghia down a sunny LA street, a pedestrian sees him through the windshield and stares, wondering, “Could it be? Is it?” Sinatra, knowing he has done what needed to be done–and done it well–stares back, as if to confidently say, “Yes, it is.”

Gregory Jaczko would do well to read (or maybe re-read–who knows?) “Frank Sinatra Has a Cold.” Even if his nuclear rat pack won’t learn the lessons of Fukushima, the NRC chairman could learn a thing or two from the Chairman of the Board. Let’s hope Jaczko does so before his cold gets worse–because the possibility of another Fukushima, here in the United States, is nothing to sneeze at.

The Party Line – December 2, 2011: Nuclear’s “Annus Horribilis” Confirms Its Future Is in the Past

In the immediate aftermath of the Japanese earthquake and tsunami that triggered the horrific and ongoing disaster at the Fukushima Daiichi nuclear power generating station, President Barack Obama went out on a bit of a limb, striking a tone markedly different from his fellow leaders in the industrialized world. Speaking about Japan and its effect on America’s energy future–once within days of the quake, and again later in March–the president made a point of reassuring Americans that his commitment to nuclear power would stay strong. While countries like Germany and Japan–both more dependent on nuclear power than the US–took Fukushima as a sign that it was time to move away from nuclear, Obama wanted to win the future with the same entrenched industry that so generously donated to his winning the 2008 election.

But a funny thing happened on the way to winning our energy future–namely, our energy present.

As November drew to a close, an article on AOL Energy (yes, it seems AOL has an energy page) declared 2011 to be “nuclear’s annus horribilis“:

March 2011 brought the 9.0 magnitude earthquake off northeastern Japan that sparked a tsunami whose waves may have exceeded 45 feet. Tokyo Electric Power Company’s oldest nuclear station, Fukushima Daiichi, apparently survived the earthquake, but its four oldest reactors didn’t survive that wall of water. Nuclear experts are still figuring out what all went wrong, and tens of thousands still haven’t returned home as Japanese authorities try to decontaminate radioactive hot spots.

In April, massive tornadoes that devastated the southeast swept near the Tennessee Valley Authority’s Browns Ferry plant.

In June, droughts sparked wildfires across the Southwest, including one that threatened the Los Alamos National Laboratory, where nuclear weapons materials are stored.

June also brought record floods across the upper Midwest. For weeks Omaha Public Power District’s Fort Calhoun nuclear plant was essentially an island.

August saw the 5.8 magnitude Virginia earthquake just 11 miles from Dominion Energy’s North Anna plant. The plant shut safely, and returned to service mid-November after extensive checks found no damage even though ground motion briefly exceeded the plant’s design.

That list, as readers of this space will no doubt note, is far from complete. This year has also seen serious events at nuclear plants in California, Maryland, Michigan, New Hampshire and Ohio. But, perhaps even more troubling is the strangely positive tone of the piece.

Despite its ominous headline, it seems the message is: “Yeah, lots of nasty business in 2011, but 2011 is almost over. We got through it and no one died (at least no one in the US), so. . . problem solved!” It’s an attitude absurd on its face, of course, the passage of time is not the friend of America’s aging nuclear infrastructure–quite the opposite–but it is also a point that can’t survive the week in which it was made.

Take North Anna, for example. Yes, it is true that the NRC signed off on a restart in the waning hours of November 11, but the two generators at Dominion’s plant were not back at full power till November 28 because there was indeed damage–some of which was not discovered until after the restart process began.

A week earlier, a fire at Ohio’s crippled Davis-Besse facility cut ventilation to the reactor control room. A faulty valve in a pipe sending water to the reactor core leaked on an electrical switchbox, triggering an electrical arc, which started the fire. This could have been a potentially catastrophic emergency. . . had the reactor not been shut down seven weeks earlier to replace an already once previously replaced, corroded, 82-ton reactor lid. This “transplant operation” revealed a 30-foot crack in the concrete shield building that will require a separate repair program. . . which will in no way be completed before the end of the year.

The day after that fire, November 20, the St. Petersburg Times reported that Progress Energy’s Crystal River nuclear power plant in Citrus County, Florida, had discovered a 12-foot by 4-foot crack and crumbled concrete in its containment building in late July, but failed to notify the Nuclear Regulatory Commission. This was a patently intentional omission, as Progress Energy was already reporting to the NRC about repairs to two other major cracks in the same building dating back to October 2009 and March 2011.

The Crystal River story is long and sordid. The containment building cracked first during its construction in 1976. That crack was in the dome, and was linked to a lack of steel reinforcement. Most nuclear plants use four layers of steel reinforcement; Crystal River used only one. The walls were built as shoddily as the dome.

The latest problems started when Crystal River needed to replace the steam generator inside the containment building. Rather than use an engineering firm like Bechtel or SGT–the companies that had done the previous 34 such replacements in the US–Progress decided it would save a few bucks and do the job itself.

Over the objections of on-site workers, Progress used a different method than the industry standard to cut into the containment building. . . and that’s when this new cracking began. It appears that every attempt since to repair the cracks has only led to new “delamination” (as the industry calls it).

At this point, most have determined that the best plan going forward is to tear down the substandard structure and build a properly reinforced new one, but Progress thinks they have a better idea. Crystal River’s operator is trying to replace the wall panels–all six of them–one by one.

Funny enough, the cost of this never-before-tried retrofit is about the same as the cost of a whole new building. But the full rebuild would take more time–and there’s the rub.

Every day that Crystal River is offline costs Progress money because they have to buy energy to replace what they agreed to provide to the region from this nuclear facility. Each year that the plant is offline is said to cost $300 million. The price tag on this little cracking problem so far–not counting the actual costs of the repair–is $670 million.

Who will pay that bill? Well, if you live in Florida, the answer is: you:

Customers will pay $140 million next year so Progress Energy Florida can buy electricity from other sources while a nuclear plant remains shut down for repairs.

Consumer advocates opposed the power replacement charge, which will take effect Jan. 1, but it won unanimous approval Tuesday from the five-member Florida Public Service Commission.

The panel’s decision is a prelude to a determination next year whether a portion of the repair costs should be passed on to customers or paid in full by the company’s investors owing to problems that have delayed the work. The Crystal River plant was closed for repairs in 2009 but now isn’t expected to reopen until 2014. That’s about three years later than initially expected.

The repair bill is expected to total $2.5 billion. The utility wants customers to pay $670 million, or about a quarter of that amount.

Interesting how that $670 million exactly mirrors the replacement energy costs through today. Students of the Florida Public Service Commission would probably be skeptical that the bailout will really stop there–remember, Florida residents already pay a surcharge on their utility bills for possible (but in no way guaranteed) future nuclear power construction.

And to say that it’s all about the money would not be pure speculation. As the St. Petersburg Times reports, while the good people at Crystal River failed to notify the NRC (or the Public Service Commission) about their latest troubles in a timely fashion, Progress Energy didn’t dare keep secrets from the US Securities and Exchange Commission. On August 8, the same day it neglected to mention the new cracks in a report to the PSC, Progress filed its annual report to the SEC and stated “additional cracking or delaminations may have occurred or could occur during the repair process.”

Given the many revelations of just how casual SEC enforcement can be, it is disturbing to think a nuclear provider had more to worry about from the SEC than from the NRC, the agency given direct oversight of nuclear plant licensing and safety.

Disturbing, but not surprising. This year has also revealed the cozy relationship between the nuclear industry and the NRC. An AP exposé made that clear over the summer, but one need look no further than the AOL Energy story:

[Nuclear Energy Institute CEO Marvin] Fertel said the industry and NRC are “in very good alignment” on the issues raised by 2011 events. The concern for utilities is the “cumulative impact” of new rules, he said, and making sure they’re ranked so plant staffs attack those with the most safety benefit first and the cost is manageable.

The government and the industry agree–safety must be addressed with an eye toward cost. And the tens of millions of Americans living in the shadow of a nuclear reactor will see just what this means as the watered-down post-Fukushima recommendations are slowly proposed and implemented–with little fully required of plant operators before 2016.

Indeed, the global nuclear industry is proceeding not just as if it is business as usual–when it comes to the United States, manufacturers of nuclear plant components are already betting on a new wave of reactor construction. Over the Thanksgiving weekend, Yomiuri Shimbun reported that Toshiba Corp. is preparing to export turbine equipment to the US.

The turbines are for Toshiba-owned Westinghouse Electric Company-designed AP1000 reactors proposed for sites in Georgia and South Carolina. As previously reported, the AP1000 is a new reactor design–a new design that has not yet officially been approved by the Nuclear Regulatory Commission. Still, the operators of the plants have already started to procure the equipment.

All of which raises the question, how is it that, in an age when credit is so hard to come by, an industry so focused on the bottom line feels secure in moving forward with commitments on a plan that is still officially going through the regulatory pipeline?

The assurances come from the top, and so does the money.

In contrast to pledges to, say, close Guantanamo or give Americans a public health insurance option, when it comes to nuclear power, Barack Obama is as good as his word. In February, Obama pledged $8.33 billion in federal loan guarantees to Southern Co., the operator of Georgia’s Plant Vogtle, the proposed home of two new AP1000 reactors. Again, this pledge came in advance of any approval of the design or licensing of the construction.

So, perhaps the nuclear industry is right to feel their “annus horribilis” is behind them, at least when it comes to their business plans. And with the all-too-common “privatize the profits, socialize the risks” way the utilities are allowed to do business, one might even doubt this last annus was really that horribilis for them at all.

But for the rest of us, the extant and potential problems of nuclear power are not limited to any particular period of time. The dangers of nuclear waste, of course, are measured in tens of thousands of years, the Fukushima crisis is lived by millions every minute, and the natural disasters, “events” and accidents that plague an aging, expensive and insufficiently regulated American nuclear industry are an anytime, anywhere reminder that future cannot be won by repeating the mistakes of the past.

The Party Line – November 4, 2011: Self-Styled Clean Energy President Embraces Future That’s Dirty, Dangerous, and Expensive

“Reeling from months of protests, President Barack Obama’s advisors are worried. . . .”

So begins a November 3rd story from Reuters assessing the potential political fallout from an administration decision to green-light the Keystone XL pipeline, TransCanada Corp’s plan to move crude oil from the tar sands of Alberta to refineries in Texas. Reading the whole piece, one can’t help but feel that Obama is still of a mind to go ahead and OK this dangerous and much-derided plan, it is just the Obama 2012 campaign that’s agonizing over how to spin it.

Back in 2008, Obama the candidate seemed to understand the threat posed by global warming, and he spoke often of moving away from carbon-heavy fuel sources like tar sands. Now, a good part of what is considered the president’s “base,” it seems, understands that the transcontinental pipeline is not only a danger to farmlands and aquifers, but also a betrayal of a campaign promise.

Don’t think this is the dynamic at play? Look at recent administration boasts about such “green” initiatives as raising the Corporate Average Fuel Economy (CAFE) standards, or just read Obama campaign spokesman Ben LaBolt in the abovementioned Reuters story:

“The president has done more to wean us off of foreign oil and transition the nation to a clean energy economy than any other,” he said. “When Americans compare the president’s record promoting clean energy and America’s energy security to those of the leading Republican candidates, who don’t even believe that climate change is an issue that we need to address and would cede the clean energy market to China, there will be no question about who will continue our progress.”

Moving beyond the observation that this is the same “We suck less” positioning that performed so poorly for Democrats in 2010, there are indeed many questions raised by Obama’s apparent take on our energy future.

LaBolt’s claim, “The president has done more to wean us off of foreign oil and transition the nation to a clean energy economy than any other,” first begs the obvious fact-check: Alberta is not in the US, and tar sands crude is no one’s idea of clean energy. But it is not a big leap to read this statement as something more inclusive, something meant to refer to all of the Obama administration’s moves in the energy sector. Indeed, with references to clean energy, climate change and China, the Obama campaign is probably hoping for some to hear a commitment to solar power, while others might understand it as an embrace of nuclear fission.

Intent notwithstanding, administration moves have underscored the latter–a White House enraptured with nuclear power–just as events continue to lay bare the lie that US nuclear power generation could fit anywhere into a tale of clean, domestic energy advocacy.

A new stupid way to boil water?

On November 1, the Nuclear Regulatory Commission approved a new design of what is called an Advanced Boiling Water Reactor (ABWR) slated for construction in South Texas. The plan to build two 1,350-megawatt reactors was originally pitched five years ago, with the original plant operator, NRG Energy (so nice they named it twice!), requesting design certification for Toshiba’s version of ABWRs in 2007.

But in 2009, the NRC made mandatory what had previously been a voluntary requirement that plants would be able to withstand a 9/11-style aircraft attack and continue to cool the reactor and spent fuel pools. The ABWR design, and its certification, had to be amended. This amended design is what just received the NRC’s thumbs-up.

A funny thing, however, happened since the original request: NRG stopped investing in the project. NRG was the prime investor in the “South Texas Project Nuclear Power Co.,” which is the name of the body that originally submitted the amended design. Without NRG, Toshiba has been shepherding the certification request, the one just approved by the Nuclear Regulatory Commission. Just one hitch, though, foreign companies are not allowed to operate nuclear power plants in the United States–a point that seems to have been missed by the NRC (and by most establishment news reports about the certification).

This design certification without funding or domestic management in place provides an almost comic counterpoint to the funding-without-certification approach taken by the Obama administration for the AP1000 reactors proposed for Georgia’s Plant Vogtle.

The AP1000, a riff on a Pressurized Water Reactor design, is supposed to provide passive cooling inside a reactor in the event of a loss of power to the active cooling system. There are many questions about the AP1000, and it too had to be altered to comply with the 2009 9/11 rules, but the most recent delay in certification comes at least in part from concerns that the design should also account for a Fukushima-like seismic event. At this point, Vogtle’s operator, The Southern Company, and the NRC have not come to a meeting of the minds.

But these concerns–or, at least, delays–did nothing to dampen the enthusiasm of the White House. In February of 2010, without any design certification in place, none other than Barak Obama himself announced $8.33 billion in loan guarantees for Southern. This was done with fanfare at a public event (there’s even a YouTube of the announcement).

So, certification with no funding, or funding with no certification–to the US federal government, it doesn’t matter. And it spells out two points in bold type: The Obama administration stands squarely behind nuclear power. . . and the marketplace does not. Without help from what the campaign would have voters believe is the all-time greatest champion of clean, green, domestic energy, new nuclear reactors would not be built in the United States.

Uranium extraction is not clean and never has been. The US is still paying to clean up from mining in the southwest that ended half a century ago. And today, uranium is not really a domestic fuel source, either. A list of the world’s top uranium producers looks like this: 1) Kazakhstan, 2) Canada, 3) Australia, 4) Namibia, 5) Russia, 6) Niger, 7) Uzbekistan. The US comes in eighth, accounting for just 2.9 percent of the world’s uranium production. By contrast, the US ranks third in global oil production, extracting almost 11 percent of the world’s crude.

And uranium doesn’t jump out of the ground ready to go for a nuclear reactor. The processing of uranium ore into useable fuel is a dirty, costly and energy intensive endeavor requiring loan guarantees, waste storage and safety protocols all its own. (And as if to underscore this, House Speaker John Boehner has recently requested federal loan guarantees to build a new nuclear processing plant in his home state of Ohio.)

Fukushima: a case study

A pair of new stories out of Japan provide all the evidence any president would need to honestly evaluate the role of nuclear power in America’s supposedly clean, green energy future.

Fukushima isn’t a single event, it is an ongoing, ever-evolving, always metastasizing crisis. In case anyone thought otherwise, the detection of radioactive xenon in Fukushima Daiichi reactor 2 provided a chance to again pay heed to just how serious things remain at the crippled Japanese nuclear facility.

Though Tokyo Electric Power Company (TEPCO), the nominal owners Fukushima Daiichi, contend that the trace of xenon gas does not represent evidence of a nuclear chain reaction inside the reactor previously thought closest to a so-called “cold shutdown,” they still pumped in boric acid–a substance used to mitigate nuclear fission.

Tokyo Electric may or may not be telling the whole truth in this instance, but evidence from throughout this disaster dictates skepticism. For example, scientists have again revised upwards their estimates of total radiation released from the plant, and a new study explodes TEPCO’s minimalist fairytale:

France’s l’Institut de Radioprotection et de Surete Nucleaire (Institute for Radiological Protection and Nuclear Safety, or IRSN) has issued a recent report stating that the amount of radioactive cesium-137 that entered the Pacific after 11 March was probably nearly 30 times the amount stated by Tokyo Electric Power Co. in May.

According to IRSN, the amount of the radioactive isotope cesium-137 that flowed into the ocean from the Fukushima Daiichi nuclear plant between March 21 and mid-July reached an estimated 27.1 quadrillion becquerels.

Quadrillion is not a number that often comes up in polite conversation, but suffice it to say, it’s a lot. . . even for becquerels. Soon after the March 11 earthquake, Japan revised acceptable levels of radioactive cesium upward. . . to 500 becquerels per kilogram. Though even the 27.1 quadrillion number sort of redefines the phrase “a drop in the ocean,” the really disturbing notion is that with a relatively long half-life, the pattern of Pacific currents, and the principles of bio-accumulation and bio-concentration at play, it is possible that everyone who includes Pacific Ocean fish in his or her diet is now part of an informal, long-term experiment on the effects of low-level radioactive contamination. Or, as the same story as above snidely puts it:

The radioactive silver lining? Radioactive cesium-137 has a half life of roughly 30 years, so if the IRSN estimates are accurate, then [b]y 2041 the Pacific’s aquatic life will only be subjected to a mere 13.55 quadrillion becquerels of radiation.

But long half-lives and long-term health effects require long-range thinking, not to mention arguments about the relative value of human life. Perhaps another fresh release from Japan tells the nuclear story in numbers a deficit-obsessed DC elite can more easily comprehend:

Tokyo Electric Power Co. won approval for a 900 billion yen ($11.5 billion) bailout from the government after the Fukushima nuclear catastrophe to avert bankruptcy and start paying compensation for the crisis.

Trade and Industry Minister Yukio Edano approved the support after the company known as Tepco committed to cutting 7,400 jobs and 2.5 trillion yen in costs. The utility forecast an annual loss of 600 billion yen, its second since the March earthquake and tsunami wrecked its Fukushima nuclear plant.

Eleven-and-one-half-billion dollars–and that only takes TEPCO through March 2013. Who here thinks the crisis will be over by then? It almost makes Obama’s $8.33 billion loan guarantee to Southern look like a bargain.

Almost.

Except that the loan guarantee is just for construction of a yet unapproved reactor design–should Southern, or whatever entity might eventually operate Plant Vogtle, experience an accident, that would likely be a whole other ball of bailout.

But what could possibly go wrong? Well, as repeatedly documented in this column, a lot. Beyond the level-7 sinkhole that is Fukushima, in the US, 2011 alone has seen manmade accidents and natural disasters that have scrammed and/or damaged more than a half-dozen reactors. And with each event, a process of shutdown, repair, inspection, authorization and startup costs time and money that does nothing to provide America with clean, safe, renewable, affordable energy.

Each event does, however, add costs to a variety of segments of the economy. Energy production and utility bills are obvious, but this nuclear obsession also drives up costs for healthcare, food safety, air and water quality, the yet-to-be-solved problem of long-term waste storage, and don’t forget the additional tax burden required to support all the bailouts, tax breaks and loan guarantees for the nuclear industry. The Center for Strategic and International Studies, a US think tank, has also called for a global study of the health effects of long-term radiation exposure as part of an international response to the Fukushima disaster. That, too, is an expense that should be factored into the real cost of nuclear power.

One thing, however, has gotten cheaper since the Japanese earthquake and tsunami gave the world its third top-level nuclear accident since 1979, and that would be uranium. Since March, world uranium prices have fallen some thirty percent. In fact, demand is so low, the French company Areva has decided to suspend its uranium mining in the Central African Republic–for two years.

The market is again speaking, but to those predisposed to cherish the siren song of nuclear power, cheap uranium could easily become the excuse to dash greener, safer alternative energy development.

Since the earliest days of nuclear power, that siren song has gone something like this: clean, safe, and too cheap to meter. Obviously, 2011 has proven none of that rings true, but when an administration believes it can greenwash away the political fallout from a tar sands pipeline, is it such a stretch to see them ignoring the financial and radioactive fallout of nuclear power in their attempt to package Obama as the cleanest, greenest energy president ever?

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I am always happy to see the issues discussed in this column get attention from a broader audience, so I was thrilled to see Rachel Maddow take nine minutes out of her Wednesday show to call attention to what she sees as a scandal no one finds sexy enough to get excited about–namely the dangerous state of nuclear power plants across the US. But her contention that no one is paying attention irks me, at least a little. I have lost count of the number of posts I have devoted to this very subject this year, and I think, throughout, most would say I find much about this subject quite scandalous. So, Rachel, next time you want to talk about this stuff, the next time you want to share your excitement about this scandal, call me.

The Party Line – October 28, 2011: NRC Moves to Adopt Fukushima Recommendations “Without Delay”

The US Nuclear Regulatory Commission voted last week to implement recommendations from the Near-Term Task Force Review of Insights from the Fukushima Daiichi Accident (PDF), and to do so “without delay.” Coming over seven months after the earthquake and tsunami that started the crisis in Japan, and over four months after the Near-Term Task Force (NTTF) issued its report, the move highlights what might be accomplished when attention is paid, but also illustrates systemic flaws in the US nuclear regulatory regime.

The NRC identified a set of top-tier recommendations that focus on:

  • Re-evaluation of seismic and flood hazards;
  • Inspections after earthquakes and floods;
  • New regulations for “station blackouts” (the loss of all AC power at a reactor);
  • Reliability of vents on Mark I and Mark II containments; and
  • Better instrumentation for monitoring spent fuel pools.

This list does not represent the entirety of NTTF recommendations, just the ones the NRC wishes to see fast tracked (you know, “without delay”)–which, when it comes to nuclear regulation in the United States, means years. The NRC said its staff “should strive to complete and implement” these changes by 2016 (though Commission Chairman Gregory Jaczko said he thinks the station blackout rule can be adopted by April 2014 (PDF), so fasten your seatbelts).

Now, these recommendations (as opposed to actual rules, which still have to be drafted) do address some of the specific weaknesses exposed by the Japanese disaster–multiple external threats, power interruptions, hydrogen buildup, failing spent fuel storage systems–and that’s a positive step because these problems are quite real and quite possible at many of America’s nuclear power plants. But these fast-tracked proposals make up only seven of the 12 or 13 recommendations in the NTTF report–which, itself, is several points short of a truly comprehensive response to the threats Fukushima brought to the fore–and the process (much beloved by Chairman Jaczko) relies heavily on the cooperation of other government agencies, the good faith of the nuclear industry, and a seemingly magical belief that manmade or geologic events on a level with the March earthquake and tsunami will not happen here until after everything is brought up to code.

So, yes, there is a process for identifying problems (at least after they happen) and proposing some fixes with something approximating alacrity–which raises the question of why the system has not been more responsive over the last 50 years–but history and experience make it clear that process does not equate with performance.

During an interview earlier this month, NRC Chair Greg Jaczko was asked about one of his biggest efforts before the Fukushima crisis (PDF & Flash)–improving fire safety at nuclear facilities. Jaczko reflected on it this way:

[A]fter the Browns Ferry fire, we came up with a new set of regulations. Those regulations ultimately I think were very, very challenging to implement, so we’ve been struggling really for several decades to really implement those in an efficient and effective way. That’s not to say we don’t have strong fire protection programs, but we don’t have the most effective way to do it.

The Browns Ferry Fire happened in 1975. Jaczko has been an NRC commissioner since 2005; he has been chairman since 2009. And yet, here, now, in October 2011, 36 years after a guy checking for air leaks with a candle started a fire considered to be the second most frightening accident at a US nuclear plant (next to Three Mile Island), six years after Jaczko joined the NRC, Jaczko says that fire safety–a cause he has championed–is a “struggle,” “challenging to implement” and still not at its “most effective.”

In the same discussions, Jaczko also referenced safety upgrades suggested in response to the terrorist attacks of September 11, 2001, and how those are not yet fully implemented. Indeed, a recent story on security at the Indian Point power station underscored just how far the industry still has to go:

[W]hile the NRC came out with new security guidelines in 2003, these were largely voluntary in keeping with the Bush administration’s anti-regulatory policy. They were made mandatory in 2009, but Indian Point, New Jersey’s Salem, Hope Creek and Oyster Creek plants, and about 60 others around the country were granted waivers so they did not have to incur immediate expenses.

If a major domestic accident or a terrorist attack that, frankly, has colored practically every government action over the last decade cannot motivate full and fast compliance with NRC rules, why should the 65% of Americans who live within 50 miles of a nuclear plant believe that the Fukushima recommendations will be handled any better?

Already, events say that they shouldn’t. Within a day of the NRC voting to fast track some NTTF recommendations, the Atomic Safety and Licensing Board, the body responsible for renewing or extending the operating licenses of existing facilities, declared that it would not consider the proposed post-Fukushima requirements when evaluating an extension for the Seabrook Station nuclear plant, nor would it delay consideration of the license till new rules were in place. This is despite NRC Chair Jaczko’s stated preference to the contrary:

I would like to see some type of license condition that provides a commitment or a requirement for implementation of those [Fukushima] lessons before the plants would operate.

It should also be noted that even with Jaczko’s predilection on record, his term as chairman is set to expire in 2013–over a year before he expects any of the NTTF recommendations to be implemented. Jaczko’s desire to serve another term not withstanding, the question of whether he will be asked–even if President Obama is re-elected–or whether he can get reconfirmed is an open one. Despite originally being appointed by George W. Bush, Jaczko has come under fire from other NRC commissioners and from Republicans on the Hill. And it should be pointed out that Obama’s own appointee to the NRC, William Magwood, IV, is a veteran of the Bush administration’s Department of Energy and has been roundly criticized for his cozy relations with the nuclear industry.

And, of course, the planet also seems to have little regard for Jaczko’s inclinations. As repeatedly noted here, numerous US nuclear reactors have had to scram this year, courtesy of Mother Nature’s tornadoes, floods, earthquakes and hurricanes. (Again, that was all this year.)

So, what’s a country to do? Cross some fingers and hope for the best from a deep-pocketed industry and its weak, captured regulators? Or hit “pause” on license renewals and new plant construction–and even some restarts of sub-standard facilities–until the lessons of nuclear power’s most recent catastrophes are truly learned, and instead spend the time, money and effort on energy sources that don’t require such elaborate safety regimes?

In time, the Rockies may crumble, Gibraltar may tumble. . . but so many of the problems and byproducts of nuclear power are here to stay. Instead of accepting this eternal and fatalist frame for learning lessons and making changes, perhaps this latest case study in regulation should teach a broader lesson: transition to cleaner, safer, and more sustainable energy sources. . . without delay.

The Party Line – September 30, 2011: No Will, No Way: Nuclear Problems Persist, But US Fails to Seize Fukushima Moment

As September drew to a close, residents of southwest Michigan found themselves taking in a little extra tritium, thanks to their daily habit of breathing (h/t emptywheel). The tritium was courtesy of the 40-year-old Palisades Nuclear Generating Station in Covert Township, which suffered its third “event” (as they are politely called) in less than two months, and was forced to vent an indeterminate amount of radioactive steam.

The reactor at Palisades was forced to scram after an accident caused an electrical arc in a transformer in the DC system that powers “indications and controls“–also known as monitoring devices, meters and safety valves. (Transformer arcs seem to be “in” this season–it was a transformer arc that caused the Calvert Cliffs plant in Maryland to scram during Hurricane Irene.)

While it is nice to see rectors shut themselves down when a vital system goes offline, remember that “turning off” a fission reactor is not like flicking a light switch. Shutting down a reactor is a process, and the faster it is done, the more strain it puts on the reactor and its safety and cooling systems. And even after fission is mitigated, a reactor core generates heat that requires a fully functional cooling system.

Which is kind of an interesting point when considering that Palisades had just been restarted after completing repairs to a breach in the cooling system that was reported to be leaking more than 10 gallons per minute. Prior to that, a “special inspection” was ordered August 9 after a pipe coupling in the plant’s cooling system failed.

(By the way, have no fear, Michiganders, a public affairs representative for the Nuclear Regulatory Commission reassured the public that the concentration of tritium was “far below regulatory releases,” and that “as soon as it goes out, it gets diluted further.” You know, in the air. . . that you breathe.)

News of the Palisades tritium burp came at roughly the same time as a breathless (if a press release can be breathless) announcement from Dominion Resources, the folks responsible for the North Anna nuclear plant, the facility that scrammed after being shaken beyond design specifications by the earthquake centered in nearby Mineral, Virginia:

Our investigation showed the units tripped before the loss of off-site power when multiple reactor sensors detected a slight power reduction in the reactors. . . .

The root cause team determined that this occurred as result of vibration in the reactor or the monitoring devices in the reactors, or both.

Again, good that the reactors scrammed when something registered the quake, but noteworthy again because it was previously believed that the automatic shutdown started as a result of a loss of power–power required to operate the cooling systems, not only for the reactors, but for the spent fuel pools, as well.

While North Anna remains offline as the NRC continues its inspection (and tries to decide what would constitute passing that inspection), and Palisades is also down pending an (another) investigation, both serve as only the latest in a long string of examples in what could be called The Light Water Paradox: In order to safely generate a steady stream of electricity, a light water reactor needs a steady stream of electricity.

This is not just a perpetual motion machine laugh line. This inherent flaw in the design of LWRs is at the root of two other prominent tales of nuclear safety (or lack thereof).

The first, of course, is the ongoing, ever-metastasizing disaster in Japan, where failures in the cooling systems at Fukushima Daiichi following a massive earthquake and tsunami resulted in hydrogen explosions, core meltdowns, and, likely, melt-throughs that contaminated and continue to poison sizable portions of the country and surrounding sea.

The second story concerns the proposal for the construction of two new reactors at Plant Vogtle, a nuclear power facility near Augusta, Georgia.

The Vogtle reactors would be the first to be built in the US in a generation, and they have come under some additional scrutiny in part because they would be the first of a new-design LWR called the AP1000. A riff on previous Toshiba/Westinghouse pressurized water reactors, the AP1000’s most noticeable “innovations” are meant to address the active cooling paradox. First, it has emergency “dump tanks,” reservoirs of water situated above the reactor that could, in an emergency, empty into the reactor via gravity, providing up to 72 hours of “passive” cooling. Second, rather than housing the core in a reinforced concrete shell with a metal liner, the AP1000 would have an all-steel containment vessel which would, in theory, be able to expel heat through convection.

While these two design features both highlight and attempt to address a dangerous flaw that is a part of every other nuclear facility in the United States–that water has to be actively cycled through a reactor core to keep it from melting–the design still predates the Fukushima quake, and fails to truly incorporate the lessons of that disaster.

The massive March 11 earthquake shutdown power to the Fukushima Daiichi plant, and thus the cooling systems, and the tsunami that followed flooded the diesel-powered backup generators, but that was only part of the problem. Investigations now show that even if Fukushima had in some way managed to maintain power, the cooling system would still likely have failed for at least some (and likely all) of the reactors, and (and this is important) for the spent fuel pools, as well. That is because the quake not only caused a loss of power, it also caused numerous breaches in the cooling system. Cracks in the containment vessel, broken pipes, and dislodged couplings would have likely resulted in a calamitous drop in water levels, even with full power. Less than successful attempts to restore the cooling systems with new, external power sources, and the large amounts of contaminated water that continue to pour from the plant, have demonstrated just how severely the physical infrastructure was damaged.

There are additional concerns about the design of the AP1000 (possible corrosion of the all-metal containment vessel and less than rigorous computer modeling of seismic tolerances, for instance), but, in a post-Fukushima world, simply addressing the active/passive cooling problem (and only doing so for the reactor and not the spent fuel pools) does not promise a safe nuclear facility.

And there is, perhaps, a hint that at least one of the members of the NRC understands this:

The chairman of the U.S. Nuclear Regulatory Commission says the agency may need to incorporate its findings about a nuclear disaster in Japan into a license to build a new nuclear plant in Georgia.

NRC Chairman Gregory Jaczko said Wednesday [September 28] he believes the license to build two more reactors at Plant Vogtle near Augusta should include conditions that reflect the findings of a review of this year’s disaster at the Fukushima Dai-ichi plant.

While it is true that “may” and “should” are not “will” and “must,” and it is also the case that the Fukushima taskforce recommendations themselves do not fully address the problem outlined here, Chairman Jaczko’s comments do make the point that there are indeed lessons to be learned from the Japanese crisis, and right now, in the US, that education has not taken place.

The chairman and his fellow commissioners have wrestled all summer with the pace of post-Fukushima reform. Jaczko has argued for what in NRC terms is considered a speedy consideration of the new safety regime, but a majority of the panel has managed to slow the process down to a point where no new regulations will likely be in place by the time the NRC is required to rule on the Vogtle permits.

But, because the Vogtle hearings have revealed the Chairman’s understanding of at least some of the problems, it also reveals an obvious path for Jaczko and those (such as Senator Barbara Boxer (D-CA)) who would also want any new construction or operating permits to only be approved under guidelines drafted in response to the Fukushima disaster. If the industry–and the commissioners most friendly to it–wants to move quickly ahead on new construction and the relicensing of 40-year-old plants, then it should be required that they move quickly on adopting the Fukushima taskforce recommendations. No new safety rules, no new permits–the political calculus should be that simple.

And, if the NRC won’t do the political math, then it should be up to elected government to run the financial numbers.

Building the new Vogtle reactors is projected to cost $14.8 billion. That’s projected–the existing Vogtle plant went over budget by a factor of 14. But even if the new reactors stay on budget, there is still no way they would get built without help from the Federal Government. To that end, the Obama administration okayed an $8.33 billion loan guarantee for The Southern Company, owners of Plant Vogtle, contingent on the NRC’s approval of the plans. (By way of comparison, that is 16 times the size of the loan given to the now-defunct solar technology company Solyndra.) While there are a myriad of reasons why that and other such guarantees should never be proffered, at minimum, the federal government should now freeze the financial backing for new construction until the NRC passes–and industry adopts–an enhanced safety regime.

This wouldn’t be a one-shot power play. Hot on the heals of Vogtle, the V.C. Summer nuclear facility in South Carolina is also looking to add two new AP1000 reactors, and its permit process is also underway. And financial markets understand what a bad bet that project is, too. Summer is also owned by Southern, but it is operated by SCANA. Moody’s, the bond-rating agency, just downgraded SCANA’s debt to one notch above “junk” status, citing the cost of the proposed new reactors.

Meanwhile, the Commonwealth of Virginia has handed over $7 million in precious state funds to North Carolina’s Babcock & Wilcox to open a prototype of a small modular reactor (SMR) in the town of Forest, near Lynchburg. The SMR is small, indeed–160 megawatts (in contrast to the 1,800 megawatt capability of Virginia’s North Anna plant)–and it’s built entirely underground, supposedly enhancing its safety when faced with a potential terrorist attack. How it will provide greater protection from an earthquake or flood seems (at best) less obvious.

Yet, with all of this action, all of these new designs, all of this lobbying, and all of this (as “serious” people repeatedly caution) scarce government money, still no one is addressing another part of the nuclear equation: spent fuel. With Yucca Mountain now (supposedly) abandoned, the United States has no long-term plan for handling the already large and ever-growing problem of dangerous spent nuclear fuel. Right now, each nuclear facility stores its used fuel in either pools, dry casks, or both. The spent fuel pools require an active cooling system, which faces most of the same problems inherent in reactor cooling. Dry casks–used for fuel that is cool enough to remove from the pools–are considered safer, but they are far from “safe.” They are above ground, emit some radiation, and are theoretically vulnerable to terrorist attack (and the casks at North Anna moved and sustained “cosmetic” cracks in the August earthquake). In many US plants, both pools and casks are already filled to capacity. Expanding the number of nuclear reactors only accelerates the storage crisis.

And it must be reiterated, all of this activity comes a mere six months after the start of the Fukushima disaster. The latest announcement from the Japanese government–that they will relax the evacuation order for more than 100,000 residents even though their towns have not yet been decontaminated–says nothing about an easing of the emergency, and everything about a government that frankly just doesn’t know what else to do. The United States, though obviously larger, has reactors near enough to densely populated areas that a nuclear accident would make Japan’s evacuation problem seem like a rush hour fender bender. And the US government’s plan to deal with a nuclear disaster is no more impressive than Japan’s.

The saddest part, of course, is that it needn’t be that way. Beyond the political and financial tools proposed above, the NRC actually already has the power to demand the nuclear industry own up to the new seismic reality. When Westinghouse Electric came before the commission in May, it was ordered to fix its seismic calculations. Though Westinghouse grumbled, it did not question the NRC’s authority to rule on seismic concerns.

David Lochbaum, director of the Nuclear Safety Project at the Union of Concerned Scientists, agrees that the NRC has all the authority it needs:

Nuclear regulators already have “sufficient information and knowledge” to deal with earthquake risks at existing U.S. reactors and don’t need to wait for a broader review, a safety advocate said.

The Nuclear Regulatory Commission developed seismic rules for new plants in 1996 and has since approved preliminary construction for proposed nuclear units at a Southern Co. plant in Georgia and certified an early reactor design by Toshiba Corp.’s Westinghouse Electric unit, according to comments filed with the agency today by David Lochbaum. . . .

“If the NRC truly lacks sufficient information about seismic hazards and how safety at nuclear power reactors is affected, then the agency cannot responsibly have issued early site permits and certified new reactor designs,” he said.

Of course, having the authority and exercising it are not the same thing, but just as the NRC is not truly handcuffed by the fight over the Fukushima taskforce recommendations, the entire country need not be shackled to such a flawed, dangerous and expensive energy source as nuclear. The US government has demonstrated that it has the authority to make decisions on energy sources, and it has shown that it actually has the money to invest–big money. Of course, be it the NRC, Congress or President Obama, when it comes to moving beyond nuclear to demonstrably safer and truly renewable sources, what the US has not shown is the will.

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Correction: Last week’s post included the wrong location for the Seabrook nuclear plant; Seabrook is in New Hampshire. Apologies and thanks to the readers that spotted the error.