nuclear-news

The News That Matters about the Nuclear Industry

The deceptive hype about nuclear reprocessing

Nuclear Reprocessing Pay more, risk more, get little,
Bulletin of the Atomic Scientists 21 May 15  Hui Zhang
“……
 Lately, advocates for fast neutron reactors have been arguing that breeders and reprocessing can reduce the long-term hazards associated with burial of high-level waste. But these long-term benefits are offset by short-term risks and costs.

Sellafield-reprocessing

For example, breeder advocates argue that the risks surrounding leakage in geological repositories could be reduced if all the long-lived isotopes of plutonium and other transuranics contained in spent fuel were transmuted (or fissioned), thus significantly reducing the doses of radioactivity that could escape due to any leakage. But studies show that long-lived fission and activation products in spent fuel—not isotopes that could be fissioned through breeders and reprocessing—dominate the radioactivity doses that leakage could release.

Plutonium, in fact, is quite insoluble in deep underground water. So, reprocessing delivers no obvious long-term benefits in reducing leaked doses of radioactivity—but it does involve routine releases of long-lived radioactive gases from spent fuel. Reprocessing also increases the risk that tanks for high-level liquid waste might explode.

(In a similar vein, advocates for fast neutron reactors argue that reprocessing, by reducing the need to mine uranium, can reduce human radiation exposure. But any such benefit is canceled out because plutonium reprocessing and recycling themselves expose workers and the public to radiation. In short, the net effects may well be negative.)

Meanwhile, all reprocessing and fast neutron reactor programs currently under consideration significantly increase the economic costs of nuclear energy. This means that nuclear decision makers must choose between achieving rather insignificant reductions in the long-term hazards associated with nuclear waste—and achieving short-term gains in the areas of safety, security, human health, and the environment.

The choice seems rather clear-cut. The US National Academy of Sciences concluded in 1996, based on a review of the costs and benefits of reprocessing and fast neutron reactor programs, that “none of the dose reductions seem large enough to warrant the expense and additional operational risk of transmutation.” That assessment remains valid today…….http://thebulletin.org/reprocessing-poised-growth-or-deaths-door/pay-more-risk-more-get-little

May 22, 2015 Posted by | 2 WORLD, Reference, reprocessing | Leave a comment

Australians the suckers as AREVA tries to sell its failed nuclear technology down under

A negative learning curve on steroids What to make of the EPR saga? Areva is backing the wrong horse − the outcome of current political debates will result in a declining role for nuclear power in France, coupled to the growth of renewables.

A new report by ADEME, a French government agency under the Ministries of Ecology and Research, concludes that a 100% renewable electricity supply scenario is feasible in France. The report estimates that the electricity production cost would be €119 per megawatt-hour in 2050 in the 100% renewables scenario, compared with a near-identical figure of €117/MWh with a mix of 50% nuclear, 40% renewables, and 10% fossil fuels.

areva-medusa1Areva has also backed the wrong-sized wrong horse: a giant reactor with a giant price-tag. That said, the backers of ‘small modular reactors‘ are having no more success than Areva. And Areva isn’t having much luck with its mid-sized ATMEA pressurised water reactor………

The EPR saga shows that developing modified versions of conventional reactors (in this case pressurised water reactors) can be complicated and protracted and can end in failure. How much more difficult will it be to develop radically new types of reactors? The French government’s Institute for Radiological Protection and Nuclear Safety has recently produced an important critique of Generation IV nuclear power concepts. It states that there “is still much R&D to be done to develop the Generation IV nuclear reactors” and it is sceptical about the safety claims made for Generation IV concepts.

Feeling the pressure: Bumbling nuclear’s negative learning curve Jim Green, 21 May 2015, Climate Spectator http://www.businessspectator.com.au/article/2015/5/21/energy-markets/feeling-pressure-bumbling-nuclears-negative-learning-curve

French state-owned nuclear giant Areva is offering to sell its ‘world leading’ nuclear technology to South Australia. The offer is being reported in the South Australian media without a hint of irony. A reality check is in order.

Areva has posted losses in each of the past four years including a €4.83 billion loss in 2014. Continue reading

May 22, 2015 Posted by | France, safety, technology | Leave a comment

No new Generation IV Nuclear design will be ready for build before 2050

text-relevantNuClear News May 15 The Generation IV International Forum (GIF) is a co-operative international endeavour which was set up to carry out the research and development needed to establish the feasibility and performance capabilities of the next generation nuclear reactors.

Six reactor types have been selected for further development. These include: the Gas-cooled Fast Reactor (GFR), the Leadcooled Fast Reactor (LFR), the Molten Salt Reactor (MSR), the Supercritical Water-cooled Reactor (SCWR), the Sodium-cooled Fast Reactor (SFR) and the Very High Temperature Reactor (VHTR). (1)

The French Radiological Protection Agency (IRSN) has carried out a review of these systems from the point of view of safety and radiation protection. On the basis of its examination, IRSN considers the SFR system to be the only one of the six to have reached a degree of maturity compatible with the construction of a Generation IV reactor prototype during the first half of the 21st century.

Even then this will depend on further studies. (2) This is hardly a ringing endorsement, let alone anything like a quickly deployable climate solution – ie the SFR is the best possibility depending on further studies leading to a prototype before 2050!

DECC estimate in their 2013 Nuclear Energy Research and Development Roadmap (3) that the first commercial Generation IV reactors should be operating by 2040. That is still years away considering the timescale for dealing with the climate change threat.

Yet pro-nuclear environmentalists still promote these new fast reactors as if they are just around the corner. (“It may take ten years for these reactors to prove their potential” according to Kirsty Gogan writing in Nuclear Engineering International.)(4)  http://www.no2nuclearpower.org.uk/nuclearnews/NuClearNewsNo74.pdf

May 15, 2015 Posted by | 2 WORLD, Reference, technology | Leave a comment

Areva’s nuclear fuel reprocessing plant in La Hague in crisis- shunned by clients

areva-medusa1Crisis for Areva’s La Hague plant as clients shun nuclear, News Daily  May 6, 2015 EMMANUEL JARRY FOR REUTERS BEAUMONT-HAGUE, France – Areva’s nuclear fuel reprocessing plant in La Hague needs to cut costs as its international customers disappear following the Fukushima disaster, and its sole remaining big customer, fellow state-owned French utility EDF, pressures it to cut prices.

Located at the westernmost tip of Normandy, La Hague reprocesses spent nuclear fuel for reuse in nuclear reactors and is a key part in Areva’s production chain, which spans uranium mining to fuel recycling.

Its valuation and outlook are crucial for the troubled French nuclear group, which is racing to find an equity parter after four years of losses have virtually wiped out its capital……….

One of the world’s biggest nuclear waste storage facilities, La Hague’s four pools hold the equivalent of about 50 reactor cores under four meters of water.

Protected by 1.5 meter thick anti-radiation concrete walls, employees in space suits cut up spent nuclear fuel rods, extract uranium and about one percent of plutonium, and melt the remaining waste into glass for eventual deep storage.

Areva says reprocessing reduces natural uranium needs by 25 percent but opponents say that separating plutonium from spent nuclear fuel increases the risk of nuclear proliferation.

The United States does not reprocess its nuclear fuel, but Britain has a large reprocessing plant in Sellafield. A planned recycling plant in Rokkasho, Japan – modeled on La Hague – has been plagued by problems and is years behind schedule.

Since the 2011 nuclear disaster in Fukushima, Areva’s reprocessing unit has lost nearly all of its international customers.

The company’s “back-end” sales – which include reprocessing, logistics and decommissioning – have fallen to 1.53 billion euros in 2014, 18 percent of Areva’s turnover, from 2 billion euros, 30 percent of nuclear revenue, in 2004.

EDF SQUEEZE

In the past decades, more than 32,000 tonnes of spent nuclear fuel has been reprocessed at La Hague, of which nearly 70 percent for EDF, 17 percent for German utilities, nine percent for Japanese utilities and the rest for Swiss, Belgian, Dutch and Italian clients.

This year, La Hague expects to treat 1,205 tonnes of spent fuel, of which just 25 tonnes will come from abroad. That leaves Areva with EDF virtually as its sole customer, and although both firms are state-owned – Areva 87 percent, EDF 85 percent – EDF has played hardball in contract negotiations.

La Hague extracts plutonium from used nuclear fuel, which it then sends to Areva’s Melox plant in southeast France, which produces MOX fuel – a mixture of plutonium and spent uranium – for 22 (soon 24) of EDF’s 58 reactors.

The arrival of new management at both companies since the start of the year has ended years of hostility between France’s two nuclear champions, but a 6.5 billion euro contract to treat and recycle 1,100 tonnes per year of EDF’s spent fuel for the 2013-2020 period has still not been signed…………http://newsdaily.com/2015/05/crisis-for-arevas-la-hague-plant-as-clients-shun-nuclear/

May 8, 2015 Posted by | business and costs, France, reprocessing | Leave a comment

Cheap, efficient deep bore waste disposal would abort nuclear reprocessing

successfully developing deep-hole disposal techniques would be a great development for society

it could be devastating for next-generation nuclear developers attempting to utilize existing used nuclear fuel stockpiles

highly-recommendedWhy Sending Nuclear Waste to the Center of the Earth is Bad News for General Electric,Motley Fool  By Maxx Chatsko   April 30, 2015 “………the U.S. Department of Energy is set to experiment with a technique to dispose of nuclear wastes by drilling 3-mile boreholes into the Earth’s crust and then, well, dropping radioactive materials into their geological tombs. For good

Wastes-Deep-Borehole-Inject

………Fergus Gibb, the technique’s pioneer, told The Engineer that each bore hole, measuring roughly 3 miles deep and 2 feet wide, would cost just a few tens of millions of dollars to drill. …

Gibb said about six boreholes would be sufficient to store all of the United Kingdom’s existing high-level wastes and would take just five years to drill, fill, and seal. That last part is a bit trickier, although the processes have been studied, and solutions have been developed or are in the works. You can read the details on your own…..

Continue reading

May 2, 2015 Posted by | 2 WORLD, Reference, reprocessing, wastes | Leave a comment

Generation IV Nuclear Reactors no better than the current ones

highly-recommendedFuture Of Nuclear Industry Takes Yet Another Hit http://oilprice.com/Alternative-Energy/Nuclear-Power/Future-Of-Nuclear-Industry-Takes-Yet-Another-Hit.html  By Charles Kennedy, 28 April 2015

Despite the rough patch that the nuclear industry has experienced in recent years, its future remains bright, the industry insists. That is because the next generation of nuclear reactors will provide significant safety and economic benefits over current reactors.

But what if the new designs are actually not all that much better than the current fleet?

reactor-types-spin

That is the provocative conclusion that France’s nuclear watchdog came to in a new report. Published on April 27, the IRSN said that the so-called “generation IV” reactors of the future may not be able to offer major upgrades in safety (most of the reactors running today are generation II – built in the 1960’s and 1970’s – and the newer designs that are currently under construction today are considered to be generation III).

The IRSN report reviewed six of the most promising generation IV reactor designs: sodium-cooled fast reactors (SFR); very high-temperature reactors (VHTR); gas-cooled fast reactors (GFR); lead-cooled fast reactors (LFR); molten salt reactors (MSR); and SuperCritical water reactors (SCWR).

Out of all of those, ISRN found that only the sodium-cooled fast reactor is close enough to maturity. SFRs have been trumpeted as an exciting concept – they can burn nuclear waste, reducing the need to build long-term spent fuel storage.

But after looking into the technology ISRN says it’s hard to say whether or not SFRs would be better. “While it seems possible for SFR technology to guarantee a safety level at least equivalent” to generation III reactors, “IRSN is unable to determine whether it could significantly exceed this level,” the report concluded. That is because liquid sodium can explode if exposed to water. IRSN also questioned the extent to which SFRs could actually burn through dangerous nuclear waste.

The report amounts to a big rebuke for generation IV reactors, the first significant criticism of a nuclear dream that has been hailed as the key to solving energy and climate change challenges.

However, ISRN also ultimately said that the devil will be in the details. The reactor designs could solve some of their drawbacks as the specifics are fleshed out. But unless generation IV designs can prove to be much safer than generation III designs, the nuclear renaissance may not be as bright as many had hoped.

April 30, 2015 Posted by | 2 WORLD, Reference, technology | Leave a comment

Maine’s Governor wants to remove voters’ rights on decisions on small nuclear reactors

Flag-USALePage’s plan to negate rule on nuclear power plants could be radioactive. Observers wonder why his attention to the issue begins with an attempt to disempower Maine voters. 26 Apr. BY BILL NEMITZ COLUMNIST bnemitz@pressherald.com | @BillNemitz Consider yourselves warned, fellow citizens. Gov. Paul LePage is fiddling around with Maine’s nuclear hot button.

“We anticipated this might provoke a conversation,” noted Patrick Woodcock, director of the Governor’s Energy Office, in an interview on Friday.

 He’s talking about L.D. 1313, a bill quietly submitted by the LePage administration that would eliminate a longstanding requirement that any and all proposed nuclear power projects in Maine be put to a statewide referendum.

text-SMRsUnder LePage’s new plan, scheduled for a hearing Wednesday at 1 p.m. before the Legislature’s Energy, Utilities and Technology Committee, voters would no longer have a say on the creation of nuclear power plants with generating capacities of 500 megawatts or less.

(Just so you know, the Fukushima Daiichi Nuclear Power Plant’s Unit 1 reactor – one of three destroyed by Japan’s apocalyptic tsunami in 2011 – had a generating capacity of 460 megawatts.)

Let’s back up a little.

Back in 1987, when the now-defunct Maine Yankee nuclear plant in Wiscasset was still a lightning rod for the state’s highly charged anti-nuclear movement, the Legislature passed a law mandating that future construction of “any nuclear power plant” in Maine “must be submitted to the voters of the State” before any ground is broken…….

Considering the complexity and controversy bound to greet any talk of dusting off nuclear generation in Maine, why start with a bill that effectively tells voters they’re being cut out of the process?

Or, as longtime anti-nuclear activist Ray Shadis of Edgecomb put it on Friday, “You don’t start a conversation by throwing a hand grenade in the room.”

Shadis, who currently represents the lone remaining intervenor in the proposed relicensing of New Hampshire’s Seabrook nuclear plant, sees this week’s hearing as “the kind of rudeness we’ve come to expect from Gov. LePage.”

He also thinks the governor is dreaming if he thinks small modular reactors – the brainchildren of a new generation of nuclear engineers working mostly out of the Massachusetts Institute of Technology – can attract the investment capital needed to put them on the energy radar here in Maine or anywhere else, for that matter.

“It seems smart. It seems 21st century. But it is not,” Shadis said, noting that for all the design work that’s been done on small modular reactors over the past decade or so, they’ve generated virtually no interest on Wall Street.

“The most rabid anti-nuclear crowd are the investors in the market,” Shadis noted. “It takes a long time to realize any return at all. And the entirety of what you invest can turn from an asset to a liability overnight. Why bother risking your money? So they don’t.”

Thus, he said, LePage’s bill at best “is impractical, it’s silly. Out there in the energy world, where people are really trading on this stuff, it will make Maine the laughingstock. It will make us look like patsies.”

Shadis isn’t the only one watching with a raised eyebrow. Rep. Mark Dion, D-Portland, who co-chairs the Energy, Utilities and Technology Committee, can’t understand why the LePage administration would start this “conversation” by first erasing voters from the equation……….http://www.pressherald.com/2015/04/26/bill-nemitz-lepages-plan-to-negate-rule-on-nuclear-power-plants-could-be-radioactive/ 

April 27, 2015 Posted by | politics, technology, USA | Leave a comment

Finland’s nuclear regulator demands safety check for Olkiluoto 3 nuclear reactor’s pressure vessel

Nuclear watchdog seeks re-check of Olkiluoto 3 reactor yle 18 Apr 15 The Finnish Radiation and Nuclear Safety Authority (STUK) is demanding that energy utility TVO carry out new tests of the durability of the pressure vessel planned for the Olkiluoto 3 nuclear reactor. This follows a recent discovery by French officials of inconsistencies in the mechanical toughness of a vessel made for a similar reactor, also being built by the French company Areva.

pressure vessel olkiluoto

The third unit for the Flamanville, France reactor was built by Areva in France, while the one to be used in the Finnish reactor has been assembled in Japan. Both units are of the European Pressurised Reactor (EPR) type.

“There are inconsistencies in the material that the reactor vessel is made of,” Tapani Virolainen, Deputy Director of STUK’s Nuclear Reactor Regulation Department, confirmed to Yle…….Virolainen explains that anomalies were found in both the reactor vessel head and reactor vessel bottom head. He says STUK will ask TVO to re-check the reactor vessel’s manufacturing process…….http://yle.fi/uutiset/nuclear_watchdog_seeks_re-check_of_olkiluoto_3_reactor/7937448

April 20, 2015 Posted by | Finland, safety, technology | Leave a comment

Tritium is a major radioactive pollutant from Canada’s CANDU nuclear power reactors.

safety-symbol-Smhighly-recommendedTritium Traffic: Deadly Dividends for Nuclear Industry, Peace Magazine By David H MartinIn February, 1934, the British journal, New Scientist, published an article by Tom Wilkie, “Old Age Can Kill the Bomb.” It was an ingenious solution to the arms control nightmare of verification; controlling not only the number of weapons, but the strategic materials that fuel them — mainly plutonium, enriched uranium and tritium. Wilkie focused on tritium, because it turns into non-radioactive helium at a rate of 5.5 per cent per year. A halt of tritium production would rapidly cripple all nuclear arsenals. Thus, attention was rivetted on Ontario Hydro’s plan to produce about 57 kilograms of tritium by 2006. A one megaton thermonuclear warhead (equivalent to one million tons of TN”) may contain as little as one gram of tritium.

Tritium (H3) (a form of hydrogen that emits beta radiation), is a major radioactive pollutant from Canada’s CANDU nuclear power reactors. Unlike American reactor systems, the CANDU uses heavy water as a moderator and coolant. The moderator and the heavy water coolant slows down the neutron release from the uranium fuel in the reactor so that a chain reaction can take place. The active ingredient in heavy water is deuterium, another form of hydrogen. When the deuterium picks up a neutron, some of it is transformed into tritium. The concentration of tritium in the heavy water increases with the age of the reactor.

The CANDU reactor system produces 2400 times as much tritium as the American light water reactor. Continue reading

April 20, 2015 Posted by | Canada, environment, radiation, Reference, technology | Leave a comment

Why China should avoid the doubtful dream of commercial nuclear reprocessing

Nuclear-marketing-continuesflag-ChinaReprocessing in China: A long, risky journey, Bulletin of the Atomic Scientists, April 15  Hui Zhang“………Should China continue pursuing its plans for fast breeder reactors and commercialized reprocessing? Good reasons exist for avoiding this course of action. First, because most of China’s power reactors are newly built, Beijing will face little pressure over the next two decades to reduce its spent fuel burden. And spent fuel can be stored safely, at low cost, in dry casks—or disposed of safely in a deep geological repository.

Second, China faces no shortage of uranium resources for the foreseeable future. The nation’s identified resources more than tripled between 2003 and 2012, to 265,500 metric tons from 77,000 metric tons. China’s potential uranium reserves amount to more than 2 million tons. Beijing in recent times has also secured huge overseas uranium resources—about three times as large as its own identified uranium reserves. More such reserves could easily be added.

In any event, the cost of uranium accounts for only a small percentage of the cost of power that reactors generate. Simply put, the cost of uranium will not increase in the foreseeable future to levels that would justify the cost of reprocessing and breeder reactors. To the extent that China is concerned about potential disruptions in its uranium supply, it could easily and inexpensively establish a “strategic” uranium stockpile.

China should carefully examine the experiences of nations that have launched large reprocessing programs and built demonstration breeder reactors in the expectation that the commercialization of these reactors would follow. Commercialization did not follow in those countries—but huge expenses were incurred for cleaning up reprocessing sites and disposing of separated plutonium. For China, there is no urgent need to go down this risky road.

Plutonium recycling is much more expensive, and much less safe and secure, than operating light water reactors with a once-through fuel cycle. As for nuclear waste, dry cask storage is a safe, flexible, and low-cost option that can postpone for decades the need either to reprocess spent fuel or to dispose of it directly—allowing time for technology to develop. China has no convincing rationale for rushing to build commercial-scale reprocessing facilities or plutonium breeder reactors. http://thebulletin.org/reprocessing-poised-growth-or-deaths-door8185

April 13, 2015 Posted by | China, Reference, reprocessing | Leave a comment

Nuclear reprocessing has NOT gone according to plan, in China

Nuclear-marketing-continuesReprocessing in China: A long, risky journey, Bulletin of the Atomic Scientists,  Hui Zhang , April 15  Since 1983, a closed fuel cycle has been an official element of China’s nuclear energy policy. According to proponents, plutonium reprocessing and breeder reactors will allow full utilization of China’s uranium resources, drastically reduce the volume of radioactive waste that must be stored in an underground repository, and establish a way to dispense with the spent fuel accumulating in China’s reactor pools.

But Beijing’s attempts to develop commercially viable reprocessing facilities and breeder reactors have been afflicted with technological difficulties, serious delays, and cost overruns. At this point—especially taking into account China’s ample uranium resources and its easy access to additional resources abroad—it appears very doubtful that reprocessing and fast reactors are the proper way forward for China’s nuclear energy sector.

Not according to plan………..

highly-recommendedflag-ChinaParallel with development of the pilot reprocessing plant, China has been working to establish commercially viable plutonium breeder reactors. According to a plan in place until 2013, development of breeder reactors was to be a three-stage process. The first stage was to complete a project known as the China Experimental Fast Reactor. The second stage would involve building, by about 2020, a few demonstration fast reactors. Finally, commercialized fast reactors would be deployed around 2030. Progress always ran far behind schedule.

The China Experimental Fast Reactor is a sodium-cooled experimental fast reactor using technology developed for Russia’s BN-600 reactor. The project, with a planned capacity of 20 megawatts, was approved in 1995. Construction began in 2000. As with the pilot reprocessing plant, the experimental fast reactor encountered many difficulties during construction. Capital cost estimates had to adjusted twice, with each estimate double the previous one. The reactor went critical in July 2010 and, by July 2011, 40 percent of its full power was incorporated into the grid. The reactor, however, was online for only 26 hours during the remainder of 2011, and it produced the equivalent of just one full power-hour. Not until December 2014 did the reactor manage to operate at full capacity for 72 hours. So 19 years passed between project approval and operation at full capacity.

As for the second stage of the pre-2013 plan, CNNC in 2009 signed an agreement with Russia’s Rosatom to jointly construct two copies of Russia’s BN-800 fast neutron reactor in China. But Beijing has not officially approved the project. As with the French reprocessing plant, Chinese experts complain that Russia is demanding too high a price. It is not clear when or if the project will go forward. Instead, CNNC in 2013 began focusing on the development of the indigenous 600-megawatt China Fast Reactor (CFR-600). The start of construction is envisioned for 2017, with operations to commence in 2023—but the government has not approved the project yet.

Experts from CNNC have also, since 2013, urged the development of China’s first commercial fast reactor—a 1,000-megawatt reactor based on experience gained from the CFR-600. But CNNC expert Gu Zhongmao—an advocate of the closed fuel cycle—said at a recent workshop on nuclear energy in East Asia that “China needs at least another 20 to 30 years of effort before commercialization of fast reactor energy systems, and there are so many uncertainties ahead. It is beyond our ability to draw a clear picture 20 years ahead.”…………. http://thebulletin.org/reprocessing-poised-growth-or-deaths-door8185

 

April 13, 2015 Posted by | China, Reference, reprocessing | Leave a comment

Will Energy Secretary Moniz benefit France in MOX nuclear boondoggle deal? Or make AREVA accountable?

areva-medusa1$30+billion Plutonium (Pu) Fuel Project, Good for France; Bad for America: AREVA-MOX Ça Pue! Pe-yoo!  Minimg Awareness, 5 Apr 15 [Recall that Areva is 89.9% French State owned and would be long gone if it weren’t for French taxpayers keeping it afloat. Furthermore, Areva has been under police investigation for years in France due to what is known as the Uramin scandal. After the French State the largest shareholder is Kuwait (Kuwait Investment Authority at 4.8%.]

From Savannah River Site Watch:
Now, we’re being told the real reason for continuing construction of the $12.7 MOX plant at SRS – “it’s good for France!” Part of DOE’s foreign aid program fostered by Senator MOX….
French ambassador impressed with MOX
Aiken Standard, March 17, 2015,

We all know that with the gracious assistance of big-spender Senator Lindsey Graham that the bankrupt company AREVA has thrived on the transfer of US tax payer money into their coffers and are getting desperate as their plans for reprocessing of commercial spent fuel in the US have gone down the drain.

“We want to save the jobs in South Carolina because it’s good for the state, he (Wilson) believes it’s good for the U.S. and to me, it’s good for France,” Araud said. (Gerard Araud, France’s Ambassador to the United States)

MOX“The MOX facility is being designed by AREVA, a French company that is also the parent company to the MOX contractor, CB&I-AREVA MOX Services. Gilles Rousseau, the chief operating officer for the contractor, expressed his gratitude for having Araud on site.
[…]

Business at its Ugly Usual at DOE: As of April 4, 2015, there is No Accountability to the Tax-Paying Public for the U.S. DOE’s Grossly Mismanaged $30+-billion Plutonium Fuel (MOX) Project, a Textbook Case of Big Government’s Inability to Manage a Costly, Complex Project. When will Secretary of Energy Moniz and Congress act to hold those responsible accountable?

As DOE spins out of control in its management of large projects, the MOX coverup drags on and on and on. When will there be any accountability for the failed MOX project?

Moniz,-ErnestSRS Watch requested in a letter hand delivered to US Secretary of Energy Ernest Moniz on July 29, 2014 that he “Take immediate steps to hold managers in DOE, NNSA and Shaw AREVA MOX Services accountable for the massive cost overruns and schedule delays associated with MOX project.”.http://www.srswatch.org/uploads/2/7/5/8/27584045/letter_to_moniz_from_srs_watch_july_28_2014.pdf

Will Secretary Moniz act responsibly and fulfill his obligations as a public servant? Will he hold specific individuals accountable and make sure that their glaringly inadequate abilities in managing the MOX boondoggle are not used elsewhere in DOE? Let us know who you think must be held accountable: srswatch@gmail.com https:// ……….miningawareness.wordpress.com/2015/04/05/30billion-plutonium-pu-fuel-project-good-for-france-bad-for-america-areva-mox-ca-pue-pe-yoo/

 

April 6, 2015 Posted by | Reference, reprocessing, USA | Leave a comment

Recycling of nuclear fuel is more expensive than dry cask storage of nuclear wastes

text-relevantThe High and Hidden Costs of Nuclear Power  POLICY August & September 2010, No. 162 Review By Henry Sokolski…….Discouraging the use of government financial incentives to promote commercial nuclear power. This recommendation was made by the Congressional Commission on the Prevention of Weapons of Mass Destruction Proliferation and Terrorism. It would clearly include discouraging new, additional federal loan guarantees for nuclear fuel or power plant construction of the type now being proposed by President Obama and the nuclear industry. ………
Today, the lowest cost interim solution to storing spent fuel (good for 50 to several hundred years) is dry cask storage, above ground, at reactor sites. Recycling spent fuel, on the other hand, is not only more expensive, but runs much greater proliferation, terrorism, and nuclear theft risks.
 For these reasons, President Bush in 2004, the iaea in 2005, and the bipartisan U.S. Congressional Commission on the Prevention of Weapons of Mass Destruction Proliferation and Terrorism in 2008 all called for the imposition of a moratorium on commercial reprocessing. This reflects economic common sense. Unfortunately, in many countries, full employment, development of nuclear weapons options, and other political or military concerns often override straightforward cost-benefit analysis.
In the U.S., this tendency can be avoided by having the nuclear utilities themselves assume a significant portion of the costs of nuclear waste management and reactor site decommissioning. This would require changing the law in the U.S., which stipulates that all of the costs of final spent fuel storage are to be paid for by off-budget federal user fees. …….http://www.psr.org/nuclear-bailout/resources/the-high-and-hidden-costs-of.pdf

April 1, 2015 Posted by | reprocessing | Leave a comment

St George city decides against getting electricity from NuScale’s Small Modular Nuclear Reactors

text-SMRsCity opts to withdraw from nuclear power project, keep options open, St George News by  March 27, 2015 ST. GEORGE – City officials discussed the city’s future power generations needs during a City Council meeting Thursday. The city wants to keep its options open as far as those needs are concerned, and for the time being, is backing away from an experimental nuclear power option.

City staff recommended that the City Council hold off on committing to a project by NuScale Power. Based out of Oregon, NuScale proposes to build compact nuclear reactors that would be housed in a power plant built near Idaho Falls, Idaho. The compact reactors are designed to produce 40-50 megawatts of power.

A permit application for the proposed project is slated to be sent into the U.S. Nuclear Regulatory Commission for review, and could take until 2018 or longer to be approved. If approved, the power plant could be built and operational by 2024…….

Though St. George is one of UAMPS biggest utilities, city staff have recommended against committing to any binding agreements, saying they want the city to maintain flexibility over where it gets its power. The cost of being involved could run into the millions of dollars, said Laurie Mangum, the city’s energy services director……

Other sources of potential energy the city could tap into in the future include solar power or hydroelectric power generated along the Lake Powell Pipeline. Also, through its existing contracts and city-owned power-generation facilities, the city has 70 percent of its base load power needs covered up to around 2024-25, Esplin said.

“We’re in pretty good shape for the next eight-nine years,” Esplin said…….https://www.stgeorgeutah.com/news/archive/2015/03/27/mgk-city-opts-withdraw-nuclear-power-project-keep-options-open/#.VRXGyvyUcnk

March 28, 2015 Posted by | politics, technology, USA | Leave a comment

Dubious USA Bills – Small Nuclear Reactors, “education on nuclear”, nuclear as “renewable”

Flag-USANuclear power measures face questions   CrossCut WEDNESDAY 25, MARCH 2015  by  The big topic at the House Technology & Economic Development Committee hearing was whether Washington should find a place to build small modular reactors, which would be produced for utility customers. Sen. Sharon Brown, R-Kennewick, is sponsoring this proposal and the two other nuclear-related bills that the committee examined. The Senate passed the SMRs-miragesmall modular reactor bill 27-21, mostly along party lines.Tri-Cities leaders envision a Boeing-style assembly plant to build small modular reactors. This is a long-range plan and is predicted to take several years to develop……

The concept is still on the drawing board. No one has built a commercial small modular reactor yet……

At the hearing, critics cited the lack of any track record on cost or safety for small modular reactors, plus concerns over the nation’s lack of a permanent place to store used nuclear fuel.

“Small nuclear reactors are still in the prototype stage. … The prototype has never been tested in power production yet,” said Thomas Buchanan of Physicians for Social Responsibility.

“I don’t think that the Department of Commerce should work on this until it has a design that passes the NRC,” said Chuck Johnson of the same organization.

Johnson argued that a single small-modular reactor would not generate enough electricity to efficiently recover its construction and operating costs…..

Deborah Wolpoff of Olympia pointed to the cancelation of the nation’s proposed nuclear fuel repository inside Yucca Mountain, with no replacement lined up. “I think it is irresponsible to promote this technology that produces this waste that we have no solution for,” Wolpoff said.

Committee member Rep. Gael Tarleton, D-Seattle, wondered why the Legislature should support a new nuclear industry while Hanford’s Cold War nuclear wastes are decades from being cleaned up….

nuclear-teacherAnother Brown bill, which the Senate passed 44-5, would create an education program aimed at providing nuclear science lessons to students in the eighth through 12th grades. Qualified American Nuclear Society members would be brought in for classroom sessions. Also, science teachers would receive instruction on nuclear science in order to teach the subject in the classrooms…….

Mary Hanson of Physicians Social Responsibility argued that the bill would give the nuclear industry influence over students, while other energy industries would not have the same access. She said American Nuclear Society members might be less versed in nuclear power’s health issues than its technical ones.

 

The third Brown bill, which the Senate passed 29-20, would add nuclear power to the list of alternative power sources that certain utilities can use to meet a state requirement to offer their customers voluntary participation in alternative energy purchases. The current list of green sources includes wind, solar, geothermal and biomass energy….

Physicians for Social Responsibility opposed it, contending nuclear energy is not a renewable power source….

renewable-lie

http://crosscut.com/2015/03/nuclear-power-measures-face-questions/

March 27, 2015 Posted by | politics, Reference, technology, USA | Leave a comment

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