For Nuclear Power This Summer, It’s Too Darn Hot

You know that expression, “Hotter than July?” Well, this July, July was hotter than July. Depending on what part of the country you live in, it was upwards of three degrees hotter this July than the 20th Century average. Chicago, Denver, Detroit, Indianapolis and St. Louis are each “on a pace to shatter their all-time monthly heat records.” And “when the thermometer goes way up and the weather is sizzling hot,” as the Cole Porter song goes, demand for electricity goes way up, too.

During this peak period, wouldn’t it be great to know that you can depend on the expensive infrastructure your government and, frankly, you as ratepayers and taxpayers have been backstopping all these years? Yeah, that would be great. . . so would an energy source that was truly clean, safe, and too cheap to meter. Alas, to the surprise of no one (at least no one who watches this space), nuclear power, the origin of that catchy if not quite Porter-esque tripartite promise, cannot.

Take, for example, Braidwood, the nuclear facility that supplies much of Chicago with electricity:

It was so hot last week, a twin-unit nuclear plant in northeastern Illinois had to get special permission to continue operating after the temperature of the water in its cooling pond rose to 102 degrees.

It was the second such request from the plant, Braidwood, which opened 26 years ago. When it was new, the plant had permission to run as long as the temperature of its cooling water pond, a 2,500-acre lake in a former strip mine, remained below 98 degrees; in 2000 it got permission to raise the limit to 100 degrees.

The problem, said Craig Nesbit, a spokesman for Exelon, which owns the plant, is not only the hot days, but the hot nights. In normal weather, the water in the lake heats up during the day but cools down at night; lately, nighttime temperatures have been in the 90s, so the water does not cool.

But simply getting permission to suck in hotter water does not make the problem go away. When any thermoelectric plant (that includes nuclear, coal and some gas) has to use water warmer than design parameters, the cooling is less effective, and that loss of cooling potential means that plants need to dial down their output to keep from overheating and damaging core components. Exelon said it needed special dispensation to keep Braidwood running because of the increased demand for electricity during heat waves such as the one seen this July, but missing from the statement is that the very design of Braidwood means that it will run less efficiently and supply less power during hot weather.

Also missing from Exelon’s rationale is that they failed to meet one of the basic criteria for their exception:

At the Union of Concerned Scientists, a group that is generally critical of nuclear power safety, David Lochbaum, a nuclear engineer, said the commission was supposed to grant exemptions from its rules if there was no increase or only a minor increase in risk, and if the situation could not have been foreseen.

The safety argument “is likely solid and justified,’’ he wrote in an e-mail, but “it is tough to argue (rationally) that warming water conditions are unforeseen.’’ That is a predictable consequence of global warming, he said.

Quite. Lochbaum cites two instances from the hot summer of 2010–New Jersey’s Hope Creek nuclear station and Limerick in Pennsylvania each had to reduce output due to intake water that was too warm. In fact, cooling water problems at US thermoelectric generators were widespread along the Mississippi River during the hot, dry summer of 1988.

And the problem is clearly growing. Two months ago, a study published in Nature Climate Change predicted continued warming and spreading drought conditions will significantly reduce thermoelectric output in coming decades:

Higher water temperatures and reduced river flows in Europe and the United States in recent years have resulted in reduced production, or temporary shutdown, of several thermoelectric power plants, resulting in increased electricity prices and raising concerns about future energy security in a changing climate.

. . . .

[The Nature Climate Change study] projects further disruption to supply, with a likely decrease in thermoelectric power generating capacity of between 6-19% in Europe and 4-16% in the United States for the period 2031-2060, due to lack of cooling-water. The likelihood of extreme (>90%) reductions in thermoelectric power generation will, on average, increase by a factor of three.

Compared to other water use sectors (e.g. industry, agriculture, domestic use), the thermoelectric power sector is one of the largest water users in the US (at 40%) and in Europe (43% of total surface water withdrawals). While much of this water is ‘recycled’ the power plants rely on consistent volumes of water, at a particular temperature, to prevent overheating of power plants. Reduced water availability and higher water temperatures – caused by increasing ambient air temperatures associated with climate change – are therefore significant issues for electricity supply.

That study is of course considering all thermoelectric sources, not just nuclear, but the decrease in efficiency applies across the board. And, when it comes to nuclear power, as global temperatures continue to rise and water levels in rivers and lakes continue to drop, an even more disconcerting threat emerges.

When a coal plant is forced to shut down because of a lack of cool intake water, it can, in short order, basically get turned off. With no coal burning, the cooling needs of the facility quickly downgrade to zero.

A nuclear reactor, however, is never really “off.”

When a boiling water reactor or pressurized water reactor (BWR and PWR respectively, the two types that make up the total of the US commercial reactor fleet) is “shutdown” (be it in an orderly fashion or an abrupt “scram”), control rods are inserted amongst the fuel rods inside the reactor. The control rods absorb free neutrons, decreasing the number of heavy atoms getting hit and split in the fuel rods. It is that split, that fission, that provides the energy that heats the water in the reactor and produces the steam that drives the electricity-generating turbines. Generally, the more collisions, the more heat generated. An increase in heat means more steam to spin a turbine; fewer reactions means less heat, less steam and less electrical output. But it doesn’t mean no heat.

The water that drives the turbines also cools the fuel rods. It needs to circulate and somehow get cooled down when it is away from the reactor core. Even with control rods inserted, there are still reactions generating heat, and that heat needs to be extracted from the reactor or all kinds of trouble ensues–from too-high pressure breaching containment to melting the cladding on fuel rods, fires, and hydrogen explosions. This is why the term LOCA–a loss of coolant accident–is a scary one to nuclear watchdogs (and, theoretically, to nuclear regulators, too).

So, even when they are not producing electricity, nuclear reactors still need cooling. They still need a power source to make that cooling happen, and they still need a coolant, which, all across the United States and most of the rest of the world, means water.

Water that is increasingly growing too warm or too scarce. . . at least in the summer. . . you know, when it’s hot. . . and demand for electricity increases.

In fact, Braidwood is not the only US plant that has encountered problems this sultry season:

[A] spokeswoman for the Midwest Independent System Operator, which operates the regional grid, said that another plant had shut down because its water intake pipes were now above the water level of the body from which it draws its cooling water. Another is “partially curtailed.”

That spokeswoman can’t, it seems, tell us which plants she is talking about because that information “is considered competitive.” (Good to know that the Midwest Independent System Operator has its priorities straight. . . . Hey, that sounds like a hint! Anyone in the Midwest notice a nearby power plant curtailing operations?)

So, not isolated. . . and also not a surprise–not to the Nature Climate Change people this year, and not to the industry, itself. . . 17 years ago. The Electric Power Research Institute (EPRI), a non-profit group of scientists and engineers funded by the good folks who generate electricity (a group that has a noticeable overlap with the folks that own nuclear plants), released a study in 1995 that specifically warned of the threat a warming climate posed to electrical generation. The EPRI study predicted that rising levels of atmospheric carbon dioxide would make power production less efficient and more expensive, while at the same time increasing demand.

And climate predictions have only grown more dire since then.

Add to that mix one more complicating factor: when the intake water is warmer, the water expelled by the plant is warmer, too. And there are environmental protections in many areas that limit how hot that “waste” water can be. There have been instances in the past where thermoelectric plants have had to curtail production because their exhaust water exceeded allowable temperatures.

And yet, despite a myriad of potential problems and two decades of climate warnings, it is sobering to note that none of the US reactors were built to account for any of this. . . because all American nuclear reactors predate these revelations. That is not to say nuclear operators haven’t had 20 years (give or take) to plan for these exigencies, but it is to say that, by-and-large, they haven’t. (Beyond, that is, as described above, simply lobbying for higher water temperature limits. That’s a behavior all too recognizable when it comes to nuclear operators and regulators–when nuclear plants can’t meet requirements, don’t upgrade the procedures or equipment, just “upgrade” the requirements.)

But, rather than using all this knowledge to motivate a transition away from nuclear power, rather than using the time to begin decommissioning these dinosaurs, nuclear operators have instead pushed for license extensions–an additional 20 years beyond the original 40-year design. And, to date, the Nuclear Regulatory Commission has yet to reject a single extension request.

And now the nuclear industry–with the full faith and credit of the federal government–is looking to double down on this self-imposed ignorance. The “Advanced Passive” AP1000 reactors approved earlier this year for Georgia’s Plant Vogtle (and on track for South Carolina, too) may be called “advanced,” but they are still PWRs and they still require a large reserve of cool, circulating water to keep them operating and nominally safe.

The government is offering $8.3 billion of financing for the Georgia reactors at rock-bottom rates, and with very little cash up front from the plant owners. There have already been numerous concerns about the safety of the AP1000 design and the economic viability of the venture; factor in the impact of climate change, and the new Vogtle reactors are pretty much the definition of “boondoggle”–a wasteful, pointless project that gives the appearance of value while in reality delivering none. It is practically designed to fail, leaving the government (read: taxpayers and ratepayers) holding the bag.

But as a too-darn-hot July ends, that’s the woo being pitched by the nuclear industry and its government sweethearts. Rather than invest the money in technologies that actually thrive during the long, hot days of summer, rather than invest in improved efficiency and conservation programs that would both create jobs and decrease electrical demand (and carbon emissions), rather than seizing the moment, making, as it were, hay while the sun shines, it seems the US will choose to bury its head in the sand and call it shade.

Nuclear power was already understood to be dirty, dangerous and absurdly expensive, even without the pressures of climate change. Far from being the answer to growing greenhouse gas emissions, the lifecycle of nuclear power–from mining and milling to transport and disposal–has turned out to be a significant contributor to the problem. And now, the global weirding brought on by that problem has made nuclear even more precarious–more perilous and more pricy–and so an even more pernicious bet.

According to the Kinsey Report, every average man you know would prefer to play his favorite sport when the temperature is low. But when the thermometer goes way up and the weather is sizzling hot, a gob for his squab, a marine for his beauty queen, a GI for his cutie-pie–and now it turns out–the hour for nuclear power is not.

‘Cause it’s too darn hot.
It’s too. Darn. Hot.

Nuclear “Renaissance” Meets Economic Reality, But Who Gets the Bill?

Crystal River Nuclear Generating Plant, Unit 3, 80 miles north of Tampa, FL. (photo: U.S. NRC)

Crystal River is back in the news. Regular readers will recall when last we visited Progress Energy Florida’s (PEF) troubled nuclear reactor it was, shall we say, hooked on crack:

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).

Sara Barczak of CleanEnergy Footprints provides more detail on the last couple of years:

The Crystal River reactor has been plagued with problems ever since PEF self-managed a steam generation replacement project in September 2009. The replacement project was intended to last 3 months, until PEF informed the Commission that it had cracked the containment structure during the detensioning phase of the project. PEF subsequently announced that the CR3 reactor would be repaired and back in service by the 3rd quarter of 2010…then by the 4th quarter of 2010…and then by the first quarter of 2011. On March 15, 2011 PEF informed the Commission that it had cracked the reactor again during the retensioning process and subsequently told the Commission that it estimated repair costs of $1.3 billion and a return to service in 2014. Shortly thereafter, the Humpty Dumpty Crystal River reactor suffered yet another crack on July 26, 2011.

That July crack was later revealed to be 12-feet long and 4-feet wide–and here, at least when it came to notifying the Nuclear Regulatory Commission, “later” means much later. . . like four months later.

The issue, of course–as anyone with a lifetime crack habit will tell you–is that this all gets very expensive. Not only is there the cost of the repairs. . . and the repairs to the repairs. . . and the repairs to the repairs to the repairs. . . there is the cost of replacing the energy that was supposed to be supplied to PEF customers by the crippled reactor.

And then there is the cost of the new reactors. . . .

Wait, what?

Yes, based on the amazing success they have had managing Crystal River–and something called a “determination of need,” which was granted in 2008–Progress Energy holds out hope of someday building two of those trendy new AP1000 nuclear reactors at another Florida site, this one in Levy County.

And who is expected to pick up the tab? Who is on the hook, not just for repairs and replacement energy at Crystal River, but for PEF keeping its options open at Levy? Well, not surprisingly in “privatize profits, socialize risk” America, the plan was to stick Florida ratepayers with the bill (again Footprints provides the numbers):

Customer bills for instance, were expected to increase by $16/mo. in 2016; $26/mo. in 2017 and a whopping $49/mo. in 2020. Initially, Progress expected the proposed reactors to cost $4-6 billion each, coming online beginning in 2016. Just a few years later, the estimated costs have skyrocketed to over $22 billion and the online date, if the reactors ever even come online, has bumped back to 2021 and 2022. And the Office of Public Counsel believes that PEF may not intend to complete the reactors until 2027, if at all. The company has spent over $1 billion dollars on the Levy nuclear reactors and has yet to commit to build them. And the company is entitled to recover all its preconstruction and carrying costs from its customers before even a kilowatt of electricity is produced. In fact, even if the project is never completed PEF can recover all its construction costs from customers courtesy of the 2006 anti-consumer “early cost recovery” state law…essentially a nuclear tax scheme.

But now, as of this week, there is a new plan. . . stick Florida ratepayers with the bill:

The state Public Service Commission on Wednesday unanimously approved an agreement that will increase the power bills of Progress Energy Florida customers — who already pay among the highest rates in the state.

It is supposed to be a win for consumers.

The deal includes a $288 million “refund” of money customers were to pay to replace power from the crippled Crystal River nuclear plant, which has been offline since fall 2009 and might never return to service.

PSC staff concluded that customer rates still would increase. The average Progress customer’s bill on Jan. 1 is expected to increase $4.93 a month per 1,000 kilowatt hours of usage, from $123.19 to $128.12, subject to adjustments for fuel costs.

That’s a “win” for Floridians, it seems, because they are paying out something less for Progress Energy’s mistakes–at least in the near term. But even that caveat is subject to scrutiny:

While the agreement provides a replacement power cost refund over 3 years of $288 million to PEF customers (due to the CR3 outage) – it comes packaged with a base rate increase of $150 million and it precludes the parties from challenging up to $1.9 billion (yes, billion) fuel and replacement power costs from 2009 to 2016.

And that’s not all. Also in the agreement is a requirement that PEF start (yes, that is start) the latest repairs on Crystal River by the end of 2012; if they do not, Progress has to “refund” an additional $100 million to consumers. Missing, however, from the agreement is any new estimate (given the latest revelations, not to mention any post-Fukushima upgrades required) of the cost should PEF actually try to remedy all of Crystal River’s problems–and perhaps even more glaring, questions remain as to who will pay (and how much it will cost) should PEF decide to stop throwing good money after bad and decommission Crystal River reactor 3.

Also missing from the calculation is any determination of what PEF’s insurance will cover–Crystal River’s insurer stopped paying out in early 2011, and they have yet to decide if they will pay anything more. . . at all.

The agreement also fails to put an end to what is now becoming a regular part of the nuclear power finance scam–collecting public money for plants that will never be built. As the Southern Alliance for Clean Energy (SACE, which is affiliated with CleanEnergy Footprints) observed when it opted not to sign on to the Florida rate agreement:

PEF hasn’t committed to actually building the Levy Co. reactors. Having customers pay for the company just to maintain the “option” at a later date to build reactors is unfair to today’s customers – and runs counter to the Commission’s “intent to build” standard. The agreement allows the company to collect another $350 million from customers, presumably for pursuing their Nuclear Regulatory Commission license (without any prudency review) for reactors it hasn’t committed to build? In fact, the agreement contemplates that the company will cancel its engineering and procurement contracts as well, further demonstrating the unlikelihood of project completion.

If something sounds familiar here, it should. Southern Company has been using heaping helpings of Georgia ratepayer money to do all kinds of preliminary work on their Vogtle site, purportedly the future home of two new AP1000 reactors, just granted a combined construction and operating license by the NRC in January.

The big difference so far between Levy and Vogtle has been Southern’s ability to line up some financing for its Georgia construction–thanks to $8.33 billion in federal loan guarantees granted the project by the Obama administration almost two years in advance of the NRC approval.

PEF does not have this kind of guarantee, but that did not stop them from trading on the possibility:

Progress Energy Florida officials said Thursday that President Obama’s plan to offer federal loan guarantees to encourage investment in nuclear power plant construction will be a strong incentive to move forward with the company’s proposed Levy County plant.

The project, however, is facing delays of between 20 to 36 months due to economic and regulatory problems, making the plant’s future uncertain despite the company’s insistence the project isn’t cancelled.

“It (the loan guarantee program) will definitely play a role in that decision (whether to continue with the project). It is one of many, but a very important one,” said Progress Energy spokesman Mike Hughes.

That was in 2010, right after President Obama announced the new Department of Energy loan program–but two years later, PEF has not secured a federal guarantee, and so has not secured any financing. . . and thus has also not committed to ever building the Levy plant. But none of that has stopped Progress from collecting money from Florida consumers just to keep hope alive, as it were. And none of that has apparently stopped any of Florida’s public service commissioners from telling PEF that this practice is just jake with them.

Even with NRC approval and some federally guaranteed money, it is still not a sure bet that the Vogtle AP1000 reactors will ever come on line. PEF’s Levy project has no license and no loan guarantee.

The folks at Progress Energy are not stupid–at least not when it comes to short-term financial gain–they know how very slim their chances are of ever pushing even a single kilowatt out of Levy County, but they also know where the profit is in the nuclear power game. It is not, quite obviously, in the construction of nuclear power plants–rife as that process is with lengthy delays and massive cost overruns–and it is not, some might be surprised to learn, so much in electric generation, given that plants in the US are now suffering “unusual events” that force one or more of them offline pretty much every week. Unusual events cost money–in parts and labor, and in time lost to repairs and inspections–and, as has been demonstrated at Crystal River, there is the cost of replacement energy.

No, the real profits in the nuclear racket come from the ability to collect on services not rendered and a product not delivered, or at least not delivered regularly. Because the system backstops the financing of nuclear facilities while also allowing plant operators to pass both real and anticipated costs onto ratepayers, many American taxpayers are poised to pay twice for nuclear power plants that don’t produce power.

And it would be remiss to close without adding a few more points.

Much has been made of the failure of solar panel manufacturer Solyndra, which also received aid from the federal government in the form of loan guarantees. Solyndra ultimately got $527 million from the government; contrast that with what has been granted to Southern for Vogtle. Or, starker still, look at the entire alternative energy loan program, now projected to cost out at under $3 billion, and then look back to 2010, when Barack Obama pledged $54.5 billion to the DOE loan guarantee program designed to foster investment in nuclear power.

In addition, while the government will actually recoup most of the money lost on Solyndra when the factory and inventory are auctioned off, the “leftovers” from a failed nuclear plant–even the parts that are not contaminated with radioactivity–are much harder (if not impossible) to move.

The focus of this story has been on the costs–because the case of Progress Energy Florida is such a glaring example of how nuclear operators fleece America–but the fact that a company so focused on the bottom line, regardless of its effect on public safety, is still allowed to play with something as dangerous as a damaged nuclear power plant should not be overlooked. Alas, as was exposed last year, nuclear regulators and the nuclear industry seem to agree that safety should be addressed with an eye toward cost. So, while Crystal River is a scary mess, the reactor in question is actually offline right now. The same cannot be said, for example, about Ohio’s Davis-Besse plant, which has cracking problems of its own, but was allowed by the NRC to restart in January–over the vociferous objections of industry watchdogs, engineers, and Rep. Dennis Kucinich (D-OH).

And then there is Palisades, on the shores of Lake Michigan, where numerous events and releases of radioactivity in the last year caused the Nuclear Regulatory Commission to issue a downgrade of the plant’s safety rating–but the NRC did not order the plant to shut down. Palisades is owned by Entergy Nuclear, who was recently cited for “buying reactors cheap, then running them into the ground.” In addition to Palisades, Entergy owns nine other plants–Arkansas Nuclear One, Nebraska’s Cooper Nuclear Station, Fitzpatrick in upstate New York, Grand Gulf in Mississippi, Indian Point, just north of New York City, Pilgrim, outside of Boston, River Bend and Waterford, both in Louisiana, and Vermont Yankee.

The case of Vermont Yankee is especially upsetting. Yankee is a GE boiling water reactor, similar to the model that failed so catastrophically at Fukushima–but the NRC voted to extend its operating license just days after the Tohoku quake. The state of Vermont had a better idea, declaring that the nuclear plant should shut down by March 21, 2012. However, in January, federal district court judge J. Garvan Murtha ruled Entergy could ignore Vermont’s order and continue operating. The state is appealing the ruling, but in the meantime, Yankee continues to operate. . . and continues to leak tritium into the groundwater, and into the Connecticut River.

It is not clear who will be paying for any attempt to clean up the Vermont Yankee leak–though one can guess–nor is it clear what will happen to new nuclear waste produced after March 21, since the Vermont statehouse has forbidden any new waste storage on the site. Indeed, storing used nuclear fuel is a nationwide problem that poses real dangers in the near term, and will likely cost billions of public dollars in the long term.

And that’s the bottom line–the real bottom line–for the industry’s oft-ballyhooed “nuclear renaissance.” Plant operators and captured regulators can try to obscure the safety concerns with diversionary dustups and magical thinking, but economic realities, like facts, are stubborn. Without huge injections of public money, nuclear power simply cannot continue to function–and the public is in no mood for another multi-billion dollar government bailout.

Subsidize This: US Eyes Tariffs on Chinese Solar Panels, But What Gets Protected?

Inside SolarWorld's Oregon manufacturing plant. (photo: OregonDOT)

While trade is often a bone of contention between the United States and China, this week’s visit by Chinese Vice President Xi Jinping threw the spotlight on one subset of that battle that could have far-reaching effects well in excess of the raw dollar amounts at stake.

At issue is a complaint filed by a solar industry trade group, the Coalition for American Solar Manufacturing, or CASM, asking that the US government impose tariffs on Chinese solar panels. CASM wants the duties for what it claims are unfair subsidies by China that make Chinese solar products substantially cheaper than those offered by many US competitors.

Language in President Obama’s State of the Union, along with comments made during Xi’s visit, would seem to indicate that the federal government is set to weigh in on the side of US solar energy companies in this brewing trade war, and so make a stand for domestic green energy manufacturing and good-paying American jobs.

It seems like a political slam-dunk. The president, after all, campaigned in 2008 on the promise of a growing alternative energy sector, and protecting jobs from being off-shored appears to be the perfect play at a time when unemployment is still unacceptably high. But the reality is, to put it in diplomatic speak, more nuanced.

First, that solar trade group, the Coalition for American Solar Manufacturing, claims to represent seven solar manufacturers, but the only company publicly identified as a CASM member is SolarWorld. SolarWorld is actually not a US company, but a German one, though it does employ about 1,000 at its Hillsboro, Oregon factory.

And even that number is nuanced. SolarWorld is considered the largest producer of solar panels in the US, and so it is used as a sort of case study in this trade dispute. Several stories on the topic note that SolarWorld shuttered its Camarillo, California plant, and with it went 100 jobs. The implication is that Chinese pricing caused the California closure, but a quick step through the Google looking glass will reveal that SolarWorld moved all its manufacturing to Oregon after that state offered it millions of dollars in tax breaks.

There is nothing inherently wrong with what Oregon did (unless you are one of the newly unemployed in California), but it should be part of the discussion. Not all jobs lost are part of the international trade war; in a low-growth economy, state governments are increasingly generous with the private sector as they try to secure precious jobs.

And not all “American” solar manufacturers actually do their manufacturing in America. SunPower, a San Jose-based solar company that has said it is “neutral” in this trade row, manufactures most of its solar panels in the Philippines.

Measuring the US solar sector by manufacturing alone is also a faulty yardstick. A majority of domestic solar-sector jobs–52%–are actually in installation. . . and there’s the rub. . . well, a rub. . . potentially, a really big rub.

Oregon’s two Democratic Senators, Ron Wyden and Jeff Merkley, are obviously quick to jump in on the side of a company that provides their state with 1,000 jobs (and solar manufacturing across all companies might provide Oregonians with something like twice that number). US Representatives, like Democrats Jackie Speier, Barbara Lee and Pete Stark, who have solar startups in their California districts, have also called for the federal government to investigate Chinese trade practices.

The Department of Commerce is scheduled to rule on CASM’s complaint by March 5, but if it takes what looks like the politically smoother path and sides with SolarWorld and their invisible friends, the next step would be for the US to impose tariffs on Chinese-made solar components, thus halting the rapid downward trend in prices for solar panels, and quite possibly driving prices up again here in the United States.

And that could actually spell big problems for America’s solar sector. Though it is hard to find an “expert” without some vested interest in some side of this dispute, there seems to be consensus that the recent substantial drops in the price of solar equipment have spurred a vast expansion in the numbers of homes, schools, businesses and government buildings that have installed solar cells to meet some or all of their electric power needs. Those installations, as noted above, mean jobs, and they also mean energy savings–both immediate and sustainable–for both individuals and municipalities. And while there are tax breaks for retrofitting buildings with solar panels, those breaks are mostly available for private buildings (not public schools and municipal buildings, where alternative energy could make a quick and substantial impact), and the savings do not make up for the price difference between Chinese- and American-manufactured products. The tax breaks are also scheduled to expire in 2016.

And there’s a multiplier effect that makes the basic savings seem small in comparison. Every home, hospital or school using solar power is that much demand that is not being placed on the conventional electrical grid. Depending on the region, that means less demand for coal-, gas, or nuclear-powered generation. And that means less demand for disappearing resources and less need to build costly, new power plants. It could also mean lower costs to society in the form of fewer pollution- and radiation-related health problems.

Then there is the obvious metric: Carbon-based power generation is guaranteed to grow more expensive as time marches on; the same has proven true for nuclear power. Solar prices are on a steady downward path, and solar power, if allowed to grow in market share, will continue to grow cheaper and more competitive.

And competition is what this is all supposed to be about, right? CASM has accused China of unfair trade practices that make it impossible for American manufacturers to compete. Proponents of 19th and 20th Century power-generating technologies love to remind advocates of alternative energy that fossil and fissile fuels are just “more competitive.” All things being equal. . . the market will decide. . . if there is a level playing field. . . or so the argument goes.

Fair enough, let’s look at that playing field.

Right now, without trying to estimate any possible solar tariffs, the alternative energy sector does get some help. According to a study from the Environmental Law Institute, renewables received $29 billion in federal subsidies from 2002 to 2008. Remove ethanol form that number, and you are down to $12.2 billion.

But during that same period, fossil fuel production received $72.5 billion in subsidies. That number excludes general energy sector subsidies–and it also excludes nuclear. The amount that nuclear receives is harder to calculate in the aggregate–loan guarantees are just guarantees until there is a default, and the Price-Anderson indemnity act has a value, but quantifiable payouts only come with disasters–but it is believed that for the second half of the 20th Century, nuclear consumed 10 percent of all US subsidies to the energy sector, something well in excess of $100 billion since the industry’s start.

But the numbers for fossil fuel and nuclear power are ridiculously low-ball. Not included there, what the federal government has to spend to clean up a polluted river or an oil spill in the gulf; nor does it include what the US has and will have to spend on behalf of the nuclear industry to transport and store its dangerous radioactive waste for as far forward as anyone can imagine.

Still, a “level playing field” sounds inherently fair, so why should domestic solar manufacturing have to suffer for the sins of legacy energy production?

Indeed. Wouldn’t it be amazingly convenient for gas producers or nuclear power concerns if the downward move in solar panel prices were arrested by a US tariff?

Instead, what if the federal government leveled that playing field by increasing its subsidies to domestic solar production?

Do more subsidies somehow sound too extravagant in these times of supposedly tight budgets? OK, then maybe the gas industry should be made to pick up the tab for trucking in fresh water to communities that have had their natural water supplies poisoned by hydro-fracking. Maybe the oil industry would like to pay to register its offshore rigs in the United States when they are drilling in US waters. Or maybe the nuclear industry should be required to find their financing without federal loan guarantees.

That last point is of special interest here. Take, for example, the two Chinese companies said to be providing the most competition for US solar manufacturers. According to SolarWorld representatives, “Trina Solar received a $4.4 billion loan from the China Development Bank, and Jinko Solar got a $7.6 billion loan from the Bank of China.” As regular readers of this space probably recognize, both of those figures are eclipsed by the $8.3 billion loan guarantee given by the Obama administration to the Southern Company for two recently approved nuclear reactors in Georgia.

So, fair is fair, level that playing field, but level it all over. If the US wants to move to make its solar companies more competitive with Chinese manufacturers, then make other energy sectors have to compete on similar terms. Rather than protect entrenched, disappearing, dangerous and dirty sources with duties that will render the entire solar sector less competitive, grant solar and other promising renewable alternatives the same level of help the US has habitually handed to fossil and fissile fuels. Rather than constrain domestic job growth by making solar power more expensive, pave the way for more good jobs with greater subsidies for both solar manufacturers and consumers. Rather than blow current and future resources on fuels that will only grow more expensive, spend now to expand the contribution of energy that continues to improve its cost-to-kilowatt ratio. Rather than use taxpayer dollars to pay for more pollution, more global warming, more cleanups and more adverse health outcomes, invest in clean, green technologies that not only pay immediate dividends but also have the potential to place America at the forefront of the next economic revolution.

If the Commerce Department does move toward imposing tariffs on Chinese solar manufacturers, the Obama administration and others in the government–as well as parts of the solar industry here–will now doubt call it a move on behalf of American manufacturing and the American worker. But will it be a move on behalf of America? The government might very well need to get involved to further the growth of this renewable energy sector, but if they do, manufacturers, workers and consumers should all insist that the intervention is done in a way that is truly in the public interest.

NRC Vogtle Reactor Approval Should Blow Lid Off Nuclear Finance Scam

Work is well underway on the Vogtle Unit 4 turbine building. The bottom of the Unit 3 containment vessel can be seen in the background. (photo via the Southern Company)

The Nuclear Regulatory Commission’s Thursday vote to approve the combined construction and operating license application (COLA) for Southern Company’s Plant Vogtle cleared the way for adding two AP1000 nuclear reactors to the two existing units near Augusta, Georgia, but it should also shine a light on the elaborate shell game that masquerades as nuclear-powered electrical generation.

Coming almost exactly two years after the Obama administration granted the project $8.33 billion in federal loan guarantees, the NRC’s OK for the project did not signal a groundbreaking at Vogtle. Thanks to a redefinition of what constitutes construction, drafted under a former NRC commissioner who now works for the nuclear industry, Southern started building on the site long before the AP1000 reactor design was finally approved by the NRC last December. And foundations were poured into the Georgia earth before environmental impact surveys were even required to be filed. So, Thursday’s move did not actually start construction, but it did start the roulette wheel turning on a massive financial gamble where Southern Company is pretty much assured of winning, and US taxpayers and Georgia utility customers are guaranteed to lose.

How much those Americans who don’t happen to own a power company will lose is an issue of some question–a question that the Department of Energy and Southern Company is making very hard to answer.

As this month marks two years since the government agreed to the loan guarantees, it will mark almost as long a time since the Southern Alliance for Clean Energy (SACE) filed a Freedom of Information Act (FOIA) request for the details of the deal the DOE struck with Southern Co., and thus it also marks almost two years of stonewalling by the Obama administration and the energy consortium:

To date, DOE has produced heavily censored documents that have provided little or no information in an effort to frustrate any analysis that would be useful to taxpayers. Based on the limited information produced to date, it appears that the power companies had to put almost no “skin in the game,” only promising to pay a token credit subsidy fee of what could be as little as 0.5 or 1.5 percent of the total loan principal.

Perhaps the once-pledged-to-be-the-most-open-in-history-but-now-proving-to-be-just-as-secretive administration thinks it can hide behind the idea that it is only a guarantee, and, at that, a guarantee of a private business plan, but that would be doubly troubling.

The DOE has indeed tried to use the confidential business argument, but Mindy Goldstein, acting director, Turner Environmental Law Clinic at Emory University School of Law, who is representing SACE in its FOIA case, explains just how disturbing that argument is:

DOE claims that the loan guarantee terms and credit subsidy fee estimates are confidential and may only be viewed by Georgia Power and its utility partners. Let’s hope DOE is wrong. For such information to be withheld as confidential, it must have been obtained from the utilities themselves. If the power companies are literally writing their own guarantees and credit subsidy fee estimates, the Loan Guarantee Program is more flawed than anyone could have imagined.

Alas, given the long history of industry representatives “helping” the DOE and NRC draft their regulations, Goldstein’s legal conundrum isn’t hard to imagine as the actual state of affairs.

And neither the government nor the taxpayer should take comfort from the guarantee angle:

Private lenders have declined to finance new reactors because of the enormously high cost of new nuclear power and the substantial risk that any such investment will fail. In 2003, the Congressional Budget Office (CBO) estimated that the chance of a loan for new nuclear reactor construction resulting in default would be “very high – well over 50 percent.”

And for the folks at Vogtle, the risk is likely much higher. The two reactors now at the Georgia site took over 15 years to complete, came in 1,200 percent over budget, and resulted in an enormous rate hike for Georgia power consumers.

The fact that even with taxpayers already shouldering the risk ratepayers are also on the hook is the remarkable second slap in the face that comes with the nuclear power con:

[Southern’s subsidiary and largest utility, Georgia Power] customers already are paying down the [Vogtle] project’s financing costs through a fee that will increase to $8.74 a month by 2015. The fee will end once reactors start producing power in 2016 and 2017.

Well, the fee is supposed to end when the reactors start producing power, which is supposed to be in 2016 and 2017. But no nuclear project comes in on time or on budget–and as was just noted, history is not Vogtle’s friend here–and not only will ratepayers continue to cough up cash while construction drags on, it is certainly not unprecedented to see them continue to get fleeced for overruns after the plants are finished (just ask the good citizens of Florida).

These, of course, are just the costs incurred if everything goes more or less right. And these, of course, are just the costs of building the reactors–it has nothing to do with the fueling, the maintenance, the waste removal and clean up should anything get, you know, “unusual.” But since the taxpayers and ratepayers pretty much built the new reactors for them, those costs should come out of Southern Co/Georgia Power’s profits once they start charging for the actual power, right?

Uh. . . wrong. As George W. Bush was headed out the door, he made sure that the Department of Energy would be liable for all costs from any high-level radioactive waste generated at the new Vogtle units. And, of course, as is true for all facilities in the US, the Price-Anderson Act indemnifies the industry against claims arising nuclear accidents.

And the Nuclear Regulatory Commission’s approval–coming when it does–does nothing to make those accidents less likely. The NRC voted for Vogtle’s COLA over the objections of its chairman, Greg Jaczko, who thought safety rules that should come from the post-Fukushima recommendations should have been stipulated as essential to any new license. And the AP1000’s design, which Toshiba-Westinghouse likes to tout as safer than its close cousin, the pressurized water reactor, is suspected to be anything but.

Meanwhile, trouble at nuclear reactors worldwide continues apace. At Japan’s Fukushima Daiichi, unit two, which was said to have been brought to a “cold shutdown” in December, has experienced what is called a “re-criticality”–in other words, the temperature inside the ruptured containment vessel has begun to rise again, up more than 20 degrees Celsius since February 1. Officials from Japanese power company TEPCO have done a poor job of explaining why this might be happening or what it might mean for the future, but they do admit to the necessity of increasing the amount of water and boric acid pumped into the damaged reactor to counteract the warming. And, since there are holes and cracks in the reactor vessel, that means more radioactive waste water pouring out of the building and into the basements and surrounding plant grounds–more water on top of the 95,000 cubic meters already believed to be there, and on top of the 220,000 cubic meters that TEPCO has claimed they “processed” (and then dumped back into the environment).

And something else quite troubling has been observed in Japan–bird populations in Fukushima prefecture have taken a bigger dip than was expected from studies of similar species around Chernobyl after that nuclear disaster.

Speaking of the former Soviet Union, there was a fire last weekend at the Alikhanov Institute of Theoretical and Experimental Physics in southwestern Moscow. The building contains an atomic collider and is home to Russia’s very first heavy water reactor, built in the 1940s, and now decommissioned. Government officials said there was no danger of a radiation leak, but others, like Greenpeace Russia, beg to differ.

Back in the USA, the San Onofre plant remains completely shutdown after one reactor was found to be leaking tritium on January 31. Meanwhile, the other reactor, offline for refueling and repairs since January 9, was discovered to have alarmingly excessive wear inside its almost new turbine tubes.

And at Prairie Island, a nuclear facility in southeastern Minnesota, Xcel Energy has copped to two separate toxic chemical and radiological spills. One happened last November, but Xcel did not alert residents of the Prairie Island Indian Community–a whopping 600 yards from the power plant–till last week. The second happened just last Friday, February 3, but Xcel waited to give notice till Monday because the leak happened “‘after business hours’ just before the weekend.”

This is but a small sample–less than a week’s worth–of the nuclear world the NRC has now voted to expand. With each of these items should come a list of questions and a cavalcade of caution, but the NRC’s rulings on the AP1000 have defied the facts on the ground. Meanwhile, the entire federal government seems hell-bent on ignoring the fiscal realities, instead choosing to guarantee that money flow from the pockets of taxpayers into the coffers of nuclear energy corporations, whether or not those corporations ever provide a kilowatt of power to those taxpayers.

It is a sad state of affairs–that almost goes without saying–but perhaps sadder is the relative silence around such a multi-layered scandal.

Political activists were rightfully outraged when the Bush administration fought tooth-and-nail to keep the minutes of Vice President Dick Cheney’s energy task force secret. Now, aside from the good people at SACE, who else is working to uncloak an equally secretive–and equally offensive–Obama energy deal?

Some look to leverage a scandal off the failure of Solyndra–but the loan guarantees to Southern Company are over 15 times larger than those made to the small solar manufacturer, and frankly, even today, more risky. (Solyndra may have failed, but its assets can and will be sold, and its plant will be repurposed. Very little of that potential exists for a failed nuclear endeavor.)

Many who are outraged by the bailouts of the banks should see each of these nuclear facilities as a little version of the same “socialize the risk, privatize the profit” model. A nuclear facility might only lose billions of dollars instead of trillions, but as Everett Dirksen observed in a cheaper era, “A billion here, a billion there, pretty soon you’re talking real money.”

And, of course, nuclear failures aren’t just toxic to the economy, they are toxic to the environment, too.

And for those that think this week’s $25 billion settlement with the five big financial institutions guilty of mortgage fraud is somehow a grand amount–just remember that you can’t get two new nuclear power stations for that. . . and after typical delays and cost overruns, $25 billion likely won’t even get you one.

So, take a good look at what is happening in Georgia–even if the Obama administration and the Nuclear Regulatory Commission won’t. . . even if the Obama administration and the NRC don’t want you to. The nuclear industry, its acolytes, its lackeys, its supplicants and subordinates want to make the Vogtle reactors the first of many, the first of an irresistible nuclear renaissance, the start of a hard-charging, government-subsidized pushback–against activists and environmentalists, sure, but in reality, against the truth.

The truth, of course, is that without the lobbyists and the grease they spread, without the captured regulators and the purchased elected officials, the nuclear industry would be relegated to the past, right alongside its antiquated technology. The truth is that nuclear power is not clean, nor safe, nor too cheap to meter–it is dirty, dangerous, and a financial sinkhole of epic proportions. Banks and investment houses know it, ratepayers in Georgia and Florida know it, many of the residents of Japan know it, and even the government of Germany knows it–and now you know it, too. Now is the time to make sure your representatives in government–your president, your members of Congress, your state and local officials–know that you know it. Now is the time to stop this boondoggle and bailout, and then get to the business of safely uncoiling the nuclear serpent’s grip on our leaders and our imaginations. The AP1000 is not a first glimpse of the future, it is the last gasp of the past–and the sooner we stop subsidizing the old ideas, the sooner we can start investing in some new ones.

Nuclear Regulatory Commission Ignores Fukushima, Green-Lights First New Reactors in 34 Years

Current containment buildings and cooling towers at the Vogtle Electric Generating Plant in Burke County, GA. (photo: NRC)

The Nuclear Regulatory Commission has granted a construction and operating license to Southern Co. for two reactors to be added to its Plant Vogtle facility in Georgia. The OK is the first granted by the US regulator since 1978.

The NRC approved the license over the objections of its chairman, Gregory Jaczko, who wanted the license to stipulate that the units would meet new standards recommended by the agency’s Fukushima Near-Term Task Force (NTTF) report:

“I think this license needed something that ensured that the changes as a result of Fukushima would be implemented,” Jaczko said in an interview after the vote. “It’s like when you go to buy a house and the home inspector identifies things that should be fixed. You don’t go to closing before those things are fixed.”

The NTTF recommendations, geared toward improving safety and preventing another disaster like the one still evolving at Japan’s Fukushima Daiichi nuclear power facility, have still not become official government rules–some are projected to take up to five years to draft and implement–and so, for now, the new reactor construction will get to pretend the Tohoku quake and tsunami, and the resulting core meltdowns and widespread radioactive contamination, never happened.

The Vogtle reactors are of a new (or, let’s call it “new-ish”) design. The AP1000 reactor was just approved by the NRC in December, over the objections of numerous scientists and engineers, who saw claims of innovation insufficient to counter the dangers native to any Pressurized Water Reactor (PWR) design. Upon examination, many of the “improvements” to the AP1000 look more like ways to cut construction costs. Even so, a single new AP1000 is expected to cost anywhere from $8 billion to $14 billion dollars–and, it should be noted, no US nuclear facility has ever come in anywhere close to on time or on budget. The US government has already pledged over $8 billion in federal loan guarantees to cover construction of the Georgia reactors, since without the government backstop, no private financial institutions will invest in such a high-cost, high-risk project. Southern Co. has already spent $4 billion preparing the Vogtle site for the anticipated new construction.

I cannot support this licensing as if Fukushima never happened,” said Gregory Jaczko after the Thursday vote–but thanks to the four other commissioners of his captured agency, licensing as if Fukushima never happened is exactly what the NRC did.

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.