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Devastating review of Yablokov’s Cherno by l: Consequences of the Catastrohttps://plusone.google.com/u/0/_/+1/fastbutton?url=http%3A%2F%2Fatomicinsights.com%2F2011%2F10%2Fdevastating-review-of-yablokovs-chernobyl-consequences-of-the-catastrophe-for-people-and-the-environment.html&size=medium&count=true&annotation=&hl=en-US&jsh=r%3Bgc%2F24479126-6666cb8c/phe for Peohttps://plusone.google.com/u/0/_/+1/fastbutton?url=http%3A%2F%2Fatomicinsights.com%2F2011%2F10%2Fdevastating-review-of-yablokovs-chernobyl-consequences-of-the-catastrophe-for-people-and-the-environment.html&size=medium&count=true&annotation=&hl=en-US&jsh=r%3Bgc%2F24479126-6666cb8c/ple and the Environment by Rod Adams on October 20, 2011 in Accidents , Contamination , Health Effects , Politics of Nuclear Energy htthttps://plusone.google.com/u/0/_/+1/fastbutton?url=http%3A%2F%2Fatomicinsights.com%2F2011%2F10%2Fdevastating-review-of-yablokovs-chernobyl-consequences-of-the-catastrophe-for-people-and-the-environment.html&size=medium&count=true&annotation=&hl=en-US&jsh=r%3Bgc%2F24479126-6666cb8c/p://www.facebook.com/sharer.https://plusone.google.com/u/0/_/+1/fastbutton?url=http%3A%2F%2Fatomicinsights.com%2F2011%2F10%2Fdevastating-review-of-yablokovs-chernobyl-consequences-of-the-catastrophe-for-people-and-the-environment.html&size=medium&count=true&annotation=&hl=en-US&jsh=r%3Bgc%2F24479126-6666cb8c/phhttps://plusone.google.com/u/0/_/+1/fastbutton?url=http%3A%2F%2Fatomicinsights.com%2F2011%2F10%2Fdevastating-review-of-yablokovs-chernobyl-consequences-of-the-catastrophe-for-people-and-the-environment.html&size=medium&count=true&annotation=&hl=en-US&jsh=r%3Bgc%2F24479126-6666cb8c/p?u=htthttps://plusone.google.com/u/0/_/+1/fastbutton?url=http%3A%2F%2Fatomicinsights.com%2F2011%2F10%2Fdevastating-review-of-yablokovs-chernobyl-consequences-of-the-catastrophe-for-people-and-the-environment.html&size=medium&count=true&annotation=&hl=en-US&jsh=r%3Bgc%2F24479126-6666cb8c/p%3A%2F%2Fatomicinsights.com%2F2011%2F10%2Fdevastating-review-of-yablokovs-chernobyl-consequences-of-the-catastrohttps://plusone.google.com/u/0/_/+1/fastbutton?url=http%3A%2F%2Fatomicinsights.com%2F2011%2F10%2Fdevastating-review-of-yablokovs-chernobyl-consequences-of-the-catastrophe-for-people-and-the-environment.html&size=medium&count=true&annotation=&hl=en-US&jsh=r%3Bgc%2F24479126-6666cb8c/phe-for-https://plusone.google.com/u/0/_/+1/fastbutton?url=http%3A%2F%2Fatomicinsights.com%2F2011%2F10%2Fdevastating-review-of-yablokovs-chernobyl-consequences-of-the-catastrophe-for-people-and-the-environment.html&size=medium&count=true&annotation=&hl=en-US&jsh=r%3Bgc%2F24479126-6666cb8c/peohttps://plusone.google.com/u/0/_/+1/fastbutton?url=http%3A%2F%2Fatomicinsights.com%2F2011%2F10%2Fdevastating-review-of-yablokovs-chernobyl-consequences-of-the-catastrophe-for-people-and-the-environment.html&size=medium&count=true&annotation=&hl=en-US&jsh=r%3Bgc%2F24479126-6666cb8c/ple-and-the-environment.html&amhttps://plusone.google.com/u/0/_/+1/fastbutton?url=http%3A%2F%2Fatomicinsights.com%2F2011%2F10%2Fdevastating-review-of-yablokovs-chernobyl-consequences-of-the-catastrophe-for-people-and-the-environment.html&size=medium&count=true&annotation=&hl=en-US&jsh=r%3Bgc%2F24479126-6666cb8c/p;t=Devastating%20review%20of%20Yablokov%E2%80%99s%20Chernobyl%3A%20Consequences%20of%20the%20Catastrohttps://plusone.google.com/u/0/_/+1/fastbutton?url=http%3A%2F%2Fatomicinsights.com%2F2011%2F10%2Fdevastating-review-of-yablokovs-chernobyl-consequences-of-the-catastrophe-for-people-and-the-environment.html&size=medium&count=true&annotation=&hl=en-US&jsh=r%3Bgc%2F24479126-6666cb8c/phe%20for%20Peohttps://plusone.google.com/u/0/_/+1/fastbutton?url=http%3A%2F%2Fatomicinsights.com%2F2011%2F10%2Fdevastating-review-of-yablokovs-chernobyl-consequences-of-the-catastr

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Devastating review of Yablokov’s Chernobyl: Consequences of the Catastrohttps://plusone.google.com/u/0/_/+1/fastbutton?url=http%3A%2F%2Fatomicinsights.com%2F2011%2F10%2Fdevastating-review-of-yablokovs-chernobyl-consequences-of-the-catastrophe-for-people-and-the-environment.html&size=medium&count=true&annotation=&hl=en-US&jsh=r%3Bgc%2F24479126-6666cb8c/phe for Peohttps://plusone.google.com/u/0/_/+1/fastbutton?url=http%3A%2F%2Fatomicinsights.com%2F2011%2F10%2Fdevastating-review-of-yablokovs-chernobyl-consequences-of-the-catastrophe-for-people-and-the-environment.html&size=medium&count=true&annotation=&hl=en-US&jsh=r%3Bgc%2F24479126-6666cb8c/ple and the Environment by Rod Adams on October 20, 2011 in Accidents, Contamination, Health Effects, Politics of Nuclear Energy htthttps://plusone.google.com/u/0/_/+1/fastbutton?url=http%3A%2F%2Fatomicinsights.com%2F2011%2F10%2Fdevastating-review-of-yablokovs-chernobyl-consequences-of-the-catastrophe-for-people-and-the-environment.html&size=medium&count=true&annotation=&hl=en-US&jsh=r%3Bgc%2F24479126-6666cb8c/p://www.facebook.com/sharer.https://plusone.google.com/u/0/_/+1/fastbutton?url=http%3A%2F%2Fatomicinsights.com%2F2011%2F10%2Fdevastating-review-of-yablokovs-chernobyl-consequences-of-the-catastrophe-for-people-and-the-environment.html&size=medium&count=true&annotation=&hl=en-US&jsh=r%3Bgc%2F24479126-6666cb8c/phhttps://plusone.google.com/u/0/_/+1/fastbutton?url=http%3A%2F%2Fatomicinsights.com%2F2011%2F10%2Fdevastating-review-of-yablokovs-chernobyl-consequences-of-the-catastrophe-for-people-and-the-environment.html&size=medium&count=true&annotation=&hl=en-US&jsh=r%3Bgc%2F24479126-6666cb8c/p?u=htthttps://plusone.google.com/u/0/_/+1/fastbutton?url=http%3A%2F%2Fatomicinsights.com%2F2011%2F10%2Fdevastating-review-of-yablokovs-chernobyl-consequences-of-the-catastrophe-for-people-and-the-environment.html&size=medium&count=true&annotation=&hl=en-US&jsh=r%3Bgc%2F24479126-6666cb8c/p%3A%2F%2Fatomicinsights.com%2F2011%2F10%2Fdevastating-review-of-yablokovs-chernobyl-consequences-of-the-catastrohttps://plusone.google.com/u/0/_/+1/fastbutton?url=http%3A%2F%2Fatomicinsights.com%2F2011%2F10%2Fdevastating-review-of-yablokovs-chernobyl-consequences-of-the-catastrophe-for-people-and-the-environment.html&size=medium&count=true&annotation=&hl=en-US&jsh=r%3Bgc%2F24479126-6666cb8c/phe-for-https://plusone.google.com/u/0/_/+1/fastbutton?url=http%3A%2F%2Fatomicinsights.com%2F2011%2F10%2Fdevastating-review-of-yablokovs-chernobyl-consequences-of-the-catastrophe-for-people-and-the-environment.html&size=medium&count=true&annotation=&hl=en-US&jsh=r%3Bgc%2F24479126-6666cb8c/peohttps://plusone.google.com/u/0/_/+1/fastbutton?url=http%3A%2F%2Fatomicinsights.com%2F2011%2F10%2Fdevastating-review-of-yablokovs-chernobyl-consequences-of-the-catastrophe-for-people-and-the-environment.html&size=medium&count=true&annotation=&hl=en-US&jsh=r%3Bgc%2F24479126-6666cb8c/ple-and-the-environment.html&amhttps://plusone.google.com/u/0/_/+1/fastbutton?url=http%3A%2F%2Fatomicinsights.com%2F2011%2F10%2Fdevastating-review-of-yablokovs-chernobyl-consequences-of-the-catastrophe-for-people-and-the-environment.html&size=medium&count=true&annotation=&hl=en-US&jsh=r%3Bgc%2F24479126-6666cb8c/p;t=Devastating%20review%20of%20Yablokov%E2%80%99s%20Chernobyl%3A%20Consequences%20of%20the%20Catastrohttps://plusone.google.com/u/0/_/+1/fastbutton?url=http%3A%2F%2Fatomicinsights.com%2F2011%2F10%2Fdevastating-review-of-yablokovs-chernobyl-consequences-of-the-catastrophe-for-people-and-the-environment.html&size=medium&count=true&annotation=&hl=en-US&jsh=r%3Bgc%2F24479126-6666cb8c/phe%20for%20Peohttps://plusone.google.com/u/0/_/+1/fastbutton?url=http%3A%2F%2Fatomicinsights.com%2F2011%2F10%2Fdevastating-review-of-yablokovs-chernobyl-consequences-of-the-catastrophe-for-people-and-the-environment.html&size=medium&count=true&annotation=&hl=en-US&jsh=r%3Bgc%

Time for a Different Ahttps://plusone.google.com/u/0/_/+1/fastbutton?url=http%3A%2F%2Fatomicinsights.com%2F2004%2F11%2Ftime-for-different-approach-for-protection-against-ionizing-radiation-by-dr-j-m-cuttler-p-eng-cuttler-associates-inc.html&size=medium&count=true&annotation=&hl=en-US&jsh=r%3Bgc%2F24479126-6666cb8c/phttps://plusone.google.com/u/0/_/+1/fastbutton?url=http%3A%2F%2Fatomicinsights.com%2F2004%2F11%2Ftime-for-different-approach-for-protection-against-ionizing-radiation-by-dr-j-m-cuttler-p-eng-cuttler-associates-inc.html&size=medium&count=true&annotation=&hl=en-US&jsh=r%3Bgc%2F24479126-6666cb8c/proach for Protection Against Ionizing Radiation by Dr. J. M. Cuttler, P. Eng, Cuttler &amhttps://plusone.google.com/u/0/_/+1/fastbutton?url=http%3A%2F%2Fatomicinsights.com%2F2004%2F11%2Ftime-for-different-approach-for-protection-against-ionizing-radiation-by-dr-j-m-cuttler-p-eng-cuttler-associates-inc.html&size=medium&count=true&annotation=&hl=en-US&jsh=r%3Bgc%2F24479126-6666cb8c/p; Associates, Inc. by Rod Adams on November 4, 2004 in Guest Columns Share0 BORDER-BOTTOM-STYLE: none; PADDING-BOTTOM: 0px; LINE-HEIGHT: normal; BORDER-RIGHT-STYLE: none; TEXT-INDENT: 0px; MARGIN: 0px; PAD

95% disagree with “Beyond Nuclear”. Let’s make it 99% by Rod Adams on October 14, 2011 in Antinuclear activist , Politics of Nuclear Energy , Unreliables , Wind energy Share0 One of the more powerful concepts that I studied in college was called “groupthink.” The curriculum developers in the history department at the US Naval Academy thought it was important for people in training to become leaders in the US Navy learn to seek counsel and advice from as broad a range of sources as possible. We were taught how to avoid the kind of bad decision making that can result by surrounding oneself with yes-men or fellow travelers. The case study I remember most was the ill fated Bay of Pigs invasion where virtually the entire Kennedy Administration cabinet thought that it would be a cakewalk . If Patricia Miller had bothered to do the fact-checking required by journalistic integrity she would have come across this video showing 30 feet of water above the fuel at Fukushima with all of the fuel bundles exactly where they’re supposed to be. Aside: Don’t we live in an amazing world? I just typed “Bay of Pigs groupthink” into my browser search box and instantly hit on exactly the link I needed to support the statement above. It even cites the book we used when I was a plebe in 1977, more than 33 years ago. End Aside. Not everyone, however, has the benefit of early leadership lessons about the danger of believing that a small group of likeminded people can provide actionable advice. Some of the people who are most likely to be victims of groupthink are those who adamantly oppose the continued safe operation of emission-free nuclear power plants. The writers who exclusively quote members of that tiny community have also fallen into the groupthink trap.   On October 8, 2011, the Berkeley Patch, a New Jersey based journal that regularly posts negative stories about Oyster Creek, featured an article titled Petitioners to NRC: Shut Down All Fukushima-Like Nuclear Plants . Here is a snapshot of the masthead, the headline and the lede. The article is a diatribe that quotes people on the short list of frequently quoted antinuclear activists including Paul Gunter, Michael Mariotte, Kevin Kamps, Deb Katz and Dale Bridenbaugh. The author faithfully reproduces some of their best attempts to spread fear, uncertainty and doubt using untruths about the actual events at Fukushima. For example, the article uses the following example of how antinuclear activists are still trying to spread the myth that the used fuel pools at Fukushima caught fire. Oyster Creek – the oldest nuclear plant in the United States – has generated over 700 tons of high-level radioactive waste, Kevin Kamps of Beyond Nuc

95% disagree with “Beyond Nuclear”. Let’s make it 99% by Rod Adams on October 14, 2011 in Antinuclear activist, Politics of Nuclear Energy, Unreliables, Wind energy Share0 One of the more powerful concepts that I studied in college was called “groupthink.” The curriculum developers in the history department at the US Naval Academy thought it was important for people in training to become leaders in the US Navy learn to seek counsel and advice from as broad a range of sources as possible. We were taught how to avoid the kind of bad decision making that can result by surrounding oneself with yes-men or fellow travelers. The case study I remember most was the ill fated Bay of Pigs invasion where virtually the entire Kennedy Administration cabinet thought that it would be a cakewalk. If Patricia Miller had bothered to do the fact-checking required by journalistic integrity she would have come across this video showing 30 feet of water above the fuel at Fukushima with all of the fuel bundles exactly where they’re supposed to be.Aside: Don’t we live in an amazing world? I just typed “Bay of Pigs groupthink” into my browser search box and instantly hit on exactly the link I needed to support the statement above. It even cites the book we used when I was a plebe in 1977, more than 33 years ago. End Aside. Not everyone, however, has the benefit of early leadership lessons about the danger of believing that a small group of likeminded people can provide actionable advice. Some of the people who are most likely to be victims of groupthink are those who adamantly oppose the continued safe operation of emission-free nuclear power plants. The writers who exclusively quote members of that tiny community have also fallen into the groupthink trap.  On October 8, 2011, the Berkeley Patch, a New Jersey based journal that regularly posts negative stories about Oyster Creek, featured an article titled Petitioners to NRC: Shut Down All Fukushima-Like Nuclear Plants . Here is a snapshot of the masthead, the headline and the lede. The article is a diatribe that quotes people on the short list of frequently quoted antinuclear activists including Paul Gunter, Michael Mariotte, Kevin Kamps, Deb Katz and Dale Bridenbaugh. The author faithfully reproduces some of their best attempts to spread fear, uncertainty and doubt using untruths about the actual events at Fukushima. For example, the article uses the following example of how antinuclear activists are still trying to spread the myth that the used fuel pools at Fukushima caught fire. Oyster Creek – the oldest nuclear plant in the United States – has generated over 700 tons of high-level radioactive waste, Kevin Kamps of Beyond Nuclear said. “Granted that some of that has been moved into dry cast storage, but the pool remains full to its capacity,” Kamps said. “And this was a re-rack capacity. Much later in terms of quantity of high level radioactive waste than it was originally designed for.” This represents 125 million curies of radioactive cesium-137 and the NRC has reported that up to 100 percent of the hazardous material could be released from a pool fire, Kamps said. “I would like to point out that Fukushima Daiichi units one, two, three and four combined in terms of the inventory of high level radioactive waste in their storage pools does not match some of these reactors I mentioned in terms of how much waste is in these pools,” Kamps said. “So the risks are greater here for boil downs and the consequences of a radioactive fire in these pools.” Fortunately, the people who are not a part of the antinuclear community are finally beginning to recognize their own strength and to realize that they do not have to remain silent while the lies are being spread. Here is how a knowledgable commenter responded to the above segment of the article: If Patricia Miller had bothered to do the fact-checking required by journalistic integrity she would have come across this video showing 30 feet of water above the fuel at Fukushima with all of the fuel bundles exactly where they’re supposed to be.

On October 8, 2011, the Berkeley Patch, a New Jersey based journal that regularly posts negative stories about Oyster Creek, featured an article titled Petitioners to NRC: Shut Down All Fukushima-Like Nuclear Plants. Here is a snapshot of the masthead, the headline and the lede. The article is a diatribe that quotes people on the short list of frequently quoted antinuclear activists including Paul Gunter, Michael Mariotte, Kevin Kamps, Deb Katz and Dale Bridenbaugh. The author faithfully reproduces some of their best attempts to spread fear, uncertainty and doubt using untruths about the actual events at Fukushima. For example, the article uses the following example of how antinuclear activists are still trying to spread the myth that the used fuel pools at Fukushima caught fire. Oyster Creek – the oldest nuclear plant in the United States – has generated over 700 tons of high-level radioactive waste, Kevin Kamps of Beyond Nuclear said. “Granted that some of that has been moved into dry cast storage, but the pool remains full to its capacity,” Kamps said. “And this was a re-rack capacity. Much later in terms of quantity of high level radioactive waste than it was originally designed for.” This represents 125 million curies of radioactive cesium-137 and the NRC has reported that up to 100 percent of the hazardous material could be released from a pool fire, Kamps said. “I would like to point out that Fukushima Daiichi units one, two, three and four combined in terms of the inventory of high level radioactive waste in their storage pools does not match some of these reactors I mentioned in terms of how much waste is in these pools,” Kamps said. “So the risks are greater here for boil downs and the consequences of a radioactive fire in these pools.”

On 17 August 2011, the National Nuclear Security Administration (NNSA) of the United States issued a press release announcing that the South African government, through the Nuclear Energy Corporation (Necsa), had returned 6,3kg of highly enriched uranium (HEU) spent fuel to the US for safe storage and ultimately for destruction.

NNSA is a semi-autonomous agency within the US Department of Energy (DOE) responsible among other things for maintaining and enhancing the safety, security, reliability and performance of the US nuclear weapons stockpile. The shipment arrived at Savannah River Site (SRS) on 16 August. The SRS is a key DOE industrial complex dedicated to nuclear weapons stockpile stewardship and nuclear materials destruction in support of the US nuclear non-proliferation efforts. It is situated 20 miles south of Aiken, South Carolina.

Subsequent press reports and releases by mainly US-based academics and NGOs lauded this development as a significant step in 'reducing and securing vulnerable [emphasis added] radioactive materials held at civilian sites around the world' and stated that it represents an important effort to 'strengthen the world's defences against nuclear terrorism'. While at first reading these may seem reasonable assertions, a number of important caveats need to be highlighted.

(San Francisco) Two 10,000 lb (4,545 kg) uranium poison gas “dirty” bombs with small nuclear  dispersion devises set Japan on the road to extinction on August 6, 1945 and August 9, 1945 at Hiroshima and Nagasaki, Japan. A row of six modified and enlarged US Navy submarine reactors pioneered by US Navy Admiral Hyman Rickover and manufactured by the US based General Electric Corp (GE) finished the kill March 11, 2011. Thanks to the US Navy designed and GE built atomic reactors, the Japanese people are dying, the country of Japan is no more and the land is permanently uninhabitable.

Lethal nuclear vapors created by the destroyed Navy/GE reactors and thousands of tons of garbaged and burning old reactor cores are spreading invisible radioactive death and sickness all over the world. What’s more: the atomic reactors spilled their burning guts into the basements and there is evidence the melted reactor cores are still “reacting” 160 days out. Shutting them down is mostly just plain impossible. The burning, radioactive gates of hell are still open wide. Breathe deep everyone. Breathe your own poisoned Fuku tainted air.

The Total Fertility Rate (TFR) The best measure of population growth or shrinkage is a country’s Total Fertility Rate (TFR). It is, simply put, the average number of children women have in a society over their child bearing years. Two kids per woman is the “replacement value” for one woman and one male. Two kids per woman means the man and woman replace themselves and the next generation will be the same size as their preceding generation.

Collectively, Texas eats more energy than any other state, according to the U.S. Department of Energy. We’re fifth in the country when it comes to our per-capita energy intake — about 532 million British Thermal Units per year. A British Thermal Unit, or Btu, is like a little “bite” of energy. Imagine a wooden match burning and you’ve got a Btu on a stick. Of course, the consumption is with reason. Texas, home to a quarter of the U.S. domestic oil reserves, is also bulging with the second-highest population and a serious petrochemical industry. In recent years, we managed to turn ourselves into the country’s top producer of wind energy. Despite all the chest-thumping that goes on in these parts about those West Texas wind farms (hoist that foam finger!), we are still among the worst in how we use that energy. Though not technically “Southern,” Texans guzzle energy like true rednecks. Each of our homes use, on average, about 14,400 kilowatt hours per year, according to the U.S. Energy Information Administration. It doesn’t all have to do with the A/C, either. Arizonans, generally agreed to be sharing the heat, typically use about 12,000 kWh a year; New Mexicans cruise in at an annual 7,200 kWh. Don’t even get me started on California’s mere 6,000 kWh/year figure.

Let’s break down that kilowatt-hour thing. A watt is the energy of one candle burning down. (You didn’t put those matches away, did you?) A kilowatt is a thousand burnin’ candles. And a kilowatt hour? I think you can take it from there. We’re wide about the middle in Bexar, too. The average CPS customer used 1,538 kilowatt hours this June when the state average was 1,149 kWh, according to ERCOT. Compare that with Austin residents’ 1,175 kWh and San Marcos residents’ 1,130 kWh, and you start to see something is wrong. So, we’re wasteful. So what? For one, we can’t afford to be. Maybe back when James Dean was lusting under a fountain of crude we had if not reason, an excuse. But in the 1990s Texas became a net importer of energy for the first time. It’s become a habit, putting us behind the curve when it comes to preparing for that tightening energy crush. We all know what happens when growing demand meets an increasingly scarce resource … costs go up. As the pressure drop hits San Anto, there are exactly two ways forward. One is to build another massively expensive power plant. The other is to transform the whole frickin’ city into a de-facto power plant, where energy is used as efficiently as possible and blackouts simply don’t occur.

Consider, South Texas Project Plants 1&2, which send us almost 40 percent of our power, were supposed to cost $974 million. The final cost on that pair ended up at $5.5 billion. If the planned STP expansion follows the same inflationary trajectory, the price tag would wind up over $30 billion. Applications for the Matagorda County plants were first filed with the Atomic Energy Commission in 1974. Building began two years later. However, in 1983 there was still no plant, and Austin, a minority partner in the project, sued Houston Power & Lighting for mismanagement in an attempt to get out of the deal. (Though they tried to sell their share several years ago, the city of Austin remains a 16-percent partner, though they have chosen not to commit to current expansion plans).

SciDev.Net reporters from around the world tell us which countries are set on developing nuclear energy despite the Fukushima accident. The quest for energy independence, rising power needs and a desire for political weight all mean that few developing countries with nuclear ambitions have abandoned them in the light of the Fukushima accident. Jordan's planned nuclear plant is part of a strategy to deal with acute water and energy shortages.

The Jordan Atomic Energy Commission (JAEC) wants Jordan to get 60 per cent of its energy from nuclear by 2035. Currently, obtaining energy from neighbouring Arab countries costs Jordan about a fifth of its gross domestic product. The country is also one of the world's most water-poor nations. Jordan plans to desalinate sea water from the Gulf of Aqaba to the south, then pump it to population centres in Amman, Irbid, and Zarqa, using its nuclear-derived energy. After the Fukushima disaster, Jordan started re-evaluating safety procedures for its nuclear reactor, scheduled to begin construction in 2013. The country also considered more safety procedures for construction and in ongoing geological and environmental investigations.

The government would not reverse its decision to build nuclear reactors in Jordan because of the Fukushima disaster," says Abdel-Halim Wreikat, vice Chairman of the JAEC. "Our plant type is a third-generation pressurised water reactor, and it is safer than the Fukushima boiling water reactor." Wreikat argues that "the nuclear option for Jordan at the moment is better than renewable energy options such as solar and wind, as they are still of high cost." But some Jordanian researchers disagree. "The cost of electricity generated from solar plants comes down each year by about five per cent, while the cost of producing electricity from nuclear power is rising year after year," says Ahmed Al-Salaymeh, director of the Energy Centre at the University of Jordan. He called for more economic feasibility studies of the nuclear option.

What do you do with the waste? – Kirk Sorensen’s answers by Rod Adams on October 13, 2011 in Fuel Recycling , Nuclear Batteries , Nuclear Waste , Plutonium , Thorium Share3   Gordon McDowell, the film maker who produced Thorium Remix , has released some additional mixes of material gathered for that production effort. One in particular is aimed at those people whose main concern about using nuclear energy is the often repeated question “What do you do with the waste.” Many people who ask that question think that it is a trump card that should end all conversation and let them win the hand. I used to play bridge and enjoyed it when I could “no trump” a smug contestant who thought he had a winner. Kirk’s discussion below is one example of how that can be done in the nuclear energy field . My friends who like the Integral Fast Reactor have another answer . I am pretty certain there are dozens of other good answers to the question – the primary obstacle to implementing them comes from the nefarious forces that LIKE raising (artificial) barriers to the use of nuclear energy. On another note, I want to point to a story published in the evening of October 12, 2011 on the Wall Street Journal web site titled WSJ: Fluor Buys Stake In Reactor Maker NuScale Energy . I am happy to see that NuScale has found a suitable, deep pockets investor with a lot of nuclear plant engineering and construction experience. One more short note. Jay Hancock, a writer for the Baltimore Sun, has taken note of some of the work published on Atomic Insights regarding Exelon’s decision to destroy the Zion Nuclear power station rather than allowing it to compete against existing power plants to increase the supply and decrease the price of electricity. On October 8, 2011, Hancock published a column titled State should pull plug on Constellation-Exelon deal that explored whether or not it would be beneficial for Marylanders to allow a company like Exelon to own a dominant number of electrical power generation facilities in the state. One of the pieces of evidence that has convinced Hancock to oppose the proposed merger is the way that Exelon has acted with regard to the Zion nuclear station. He recognizes that the company has adequately demonstrated a history of using market power to drive up prices and profits at the expense of customer interests. Additional reading related to Exelon bear hug attempt: EDF Asks Maryland Regulators To Block Exelon-Constellation Merger

What do you do with the waste? – Kirk Sorensen’s answers by Rod Adams on October 13, 2011 in Fuel Recycling, Nuclear Batteries, Nuclear Waste, Plutonium, Thorium Share3  Gordon McDowell, the film maker who produced Thorium Remix , has released some additional mixes of material gathered for that production effort. One in particular is aimed at those people whose main concern about using nuclear energy is the often repeated question “What do you do with the waste.” Many people who ask that question think that it is a trump card that should end all conversation and let them win the hand. I used to play bridge and enjoyed it when I could “no trump” a smug contestant who thought he had a winner. Kirk’s discussion below is one example of how that can be done in the nuclear energy field . My friends who like the Integral Fast Reactor have another answer. I am pretty certain there are dozens of other good answers to the question – the primary obstacle to implementing them comes from the nefarious forces that LIKE raising (artificial) barriers to the use of nuclear energy. On another note, I want to point to a story published in the evening of October 12, 2011 on the Wall Street Journal web site titled WSJ: Fluor Buys Stake In Reactor Maker NuScale Energy. I am happy to see that NuScale has found a suitable, deep pockets investor with a lot of nuclear plant engineering and construction experience. One more short note. Jay Hancock, a writer for the Baltimore Sun, has taken note of some of the work published on Atomic Insights regarding Exelon’s decision to destroy the Zion Nuclear power station rather than allowing it to compete against existing power plants to increase the supply and decrease the price of electricity. On October 8, 2011, Hancock published a column titled State should pull plug on Constellation-Exelon deal that explored whether or not it would be beneficial for Marylanders to allow a company like Exelon to own a dominant number of electrical power generation facilities in the state.

Gordon McDowell, the film maker who produced Thorium Remix, has released some additional mixes of material gathered for that production effort. One in particular is aimed at those people whose main concern about using nuclear energy is the often repeated question “What do you do with the waste.” Many people who ask that question think that it is a trump card that should end all conversation and let them win the hand. I used to play bridge and enjoyed it when I could “no trump” a smug contestant who thought he had a winner. Kirk’s discussion below is one example of how that can be done in the nuclear energy field

Though nuclear power produces electricity with little in the way of carbon dioxide emissions, it, like other energy sources, is not without its own set of waste products. And in the case of nuclear power, most of these wastes are radioactive.1 Some very low level nuclear wastes can be stored and then disposed of in landfill-type settings. Other nuclear waste must remain sequestered for a few hundred years in specially engineered subsurface facilities; this is the case with low level waste, which is composed of low concentrations of long-lived radionuclides and higher concentrations of short-lived ones. Intermediate and high-level waste both require disposal hundreds of meters under the Earth’s surface, where they must remain out of harm’s way for thousands to hundreds of thousands of years (IAEA, 2009). Intermediate level wastes are not heat-emitting, but contain high concentrations of long-lived radionuclides. High-level wastes, including spent nuclear fuel and wastes from the reprocessing of spent fuel, are both heat-emitting and highly radioactive.

When it comes to the severity of an accident at a nuclear facility, there may be little difference between those that occur at the front end of the nuclear power production and those at the back end: An accident involving spent nuclear fuel can pose a threat as disastrous as that posed by reactor core meltdowns. In particular, if spent fuel pools are damaged or are not actively cooled, a major crisis could be in sight, especially if the pools are packed with recently discharged spent fuel.

Elements of success

France's CEREA has the simulation map of ground deposition of cesium-137 from the Fukushima I Nuclear Power Plant accident on its "Fukushima" page. It not only shows Japan but also the entire northern Pacific Rim, from Russian Siberia to Alaska to the West Coast of the US to the entire US. According to the map, the US, particularly the West Coast and particularly California, may be more contaminated with radioactive cesium than the western half of Japan or Hokkaido. It looks more contaminated than South Korea or China. Canada doesn't look too well either, particularly along the border with US on the western half.

From CEREA's Fukushima page: Atmospheric dispersion of radionuclides from the Fukushima-Daichii nuclear power plant CEREA, joint laboratory École des Ponts ParisTech and EdF R&D Victor Winiarek, Marc Bocquet, Yelva Roustan, Camille Birman, Pierre Tran Map of ground deposition of caesium-137 for the Fukushima-Daichii accident. The simulation was performed with a specific version of the numerical atmospheric chemistry and transport model Polyphemus/Polair3D. The parametrisations used for the transport and physical removal of the radionuclides are described in [1,2,3,4]. The magnitude of the deposition field is uncertain and the simulated values of deposited radionuclides could be significantly different from the actual deposition. In particular, the source term remains uncertain. Therefore, these results should be seen as preliminary and they are likely to be revised as new information become available to better constrain the source term and when radionuclides data can be used to evaluate the model simulation results.

The page also has the animated simulation of cesium-137 dispersion from March 11 to April 6, 2011. If the Japanese think they are the only ones who have the radiation and radioactive fallout from the accident, they are very much mistaken, if the simulation is accurate. (Meteorological institutes and bureaus in Austria, Germany, and Norway all had similar simulation maps.) Radioactive materials spewed out of Fukushima I Nuke Plant went up and away on the jet stream, reaching the other side of the Pacific. When the fallout from explosions (March 14, 15) reached the US West Coast, it came with an unusually heavy rainfall in California.

This week, the U.S. Department of Energy (DOE) re-launched its website, Energy.gov, to provide tools to help individuals and businesses better understand how to save energy and money. You can type your zip code into the site and get hyper-local information about your city, county and state, including information on tax credits, rebates and energy saving tips.

The site presents DOE data visually using the open source MapBox suite of tools, and localized data and maps can be shared or embedded on any website or blog. Other data sets the DOE is mapping include alternative fuel locations and per capita energy usage. Anyone can now compare how his state’s energy usage compares with others across the country. In addition to making the data more palatable for the public, the DOE is offering open data sets for others to use.

Our goal is simple — to improve the delivery of public services online. We’re using government data to go local in a way that’s never been possible before. We’re connecting the work of the Energy Department with what’s happening in your backyard,” says Cammie Croft, senior advisor and director of new media and citizen engagement at the DOE. “We’re making Energy.gov relevant and accessible to consumers and small businesses in their communities.”

To say that Tuesday's east coast earthquake surprised everyone would be an understatement.

This is why our best bet is planning for the worst. And when we look at the US nuclear energy infrastructure, it becomes clear that we aren't planning for the worst – not even close

We had a pretty good warning earlier this year, when the tragic earthquake and tsunami in Japan caused an even bigger tragedy when the Fukushima nuclear power plant suffered a meltdown. Tuesday's earthquake was the worst on the east coast of the US since 1944, measuring at 5.8 on the Richter scale. And while we certainly avoided the kind of crisis that Japan has endured, two nuclear reactors near the site, at the North Anna nuclear power plant, were shut down following the quake. The plant temporarily lost power and halted operations until it switched to back-up generators. Twelve other plants around the country were put on alert following the quake.

Governor Heita Kawakatsu of Shizuoka Prefecture joined a gathering of green tea lovers in New York on July 14 and appealed the safety of the teas grown in Shizuoka Prefecture, the largest tea producer in Japan.

The US is the largest market for Japan's tea export with 46% share. The governor said he wanted to dispel the anxiety due to the Fukushima nuke accident and appeal the safety directly to consumers in New York, where the Japanese food is popular.

Governor Kawakatsu explained that Shizuoka Prefecture was far away from Fukushima Prefecture where the accident happened, and that the survey of the dried teas in the prefecture's tea growing regions showed that the levels of radioactive cesium were below the safety limit. He said, "Shizuoka's tea is not only safe but good for your health." At the gathering, there were demonstrations on how to enjoy green tea in different ways.

Germany will be redirecting its economy towards renewable energy, because of the political decision to decommission its nuclear plants, triggered by the Fukushima event in Japan and subsequent public opposition to nuclear energy. Germany's decision would make achieving its 2020 CO2 emission reduction targets more difficult.   To achieve the CO2 emissions reduction targets and replace nuclear energy, renewable energy would need to scale up from 17% in 2010 to 57% of total electricity generation of 603 TWh in 2020, according to a study by The Breakthrough Institute. As electricity generation was 603 TWh in 2010, increased energy efficiency measures will be required to flat-line electricity production during the next 9 years.   Germany has 23 nuclear reactors (21.4 GW), 8 are permanently shut down (8.2 GW) and 15 (13.2 GW) will be shut down by 2022. Germany will be adding a net of 5 GW of coal plants, 5 GW of new CCGT plants and 1.4 GW of new biomass plants in future years. The CCGT plants will reduce the shortage of quick-ramping generation capacity for accommodating variable wind and solar energy to the grid.

Germany is planning a $14 billion build-out of transmission systems for onshore and future offshore wind energy in northern Germany and for augmented transmission with France for CO2-free hydro and nuclear energy imports to avoid any shortages.    Germany had fallen behind on transmission system construction in the north because of public opposition and is using the nuclear plant shutdown as leverage to reduce public opposition. Not only do people have to look at a multitude of 450-ft tall wind turbines, but also at thousands of 80 to 135 ft high steel structures and wires of the transmission facilities.   The $14 billion is just a minor down payment on the major grid reorganization required due to the decommissioning of the nuclear plants and the widely-dispersed build-outs of renewables. The exisitng grid is mostly large-central-plant based. 

This article includes the estimated capital costs of shutting down Germany's nuclear plants, reorganizing the grids of Germany and its neighbors, and building out renewables to replace the nuclear energy.    Germany’s Renewable Energy Act (EEG) in 2000, guarantees investors above-market fees for solar power for 20 years from the point of installation. In 2010, German investments in  renewables was about $41.2 billion, of which about $36.1 billion in 7,400 MW of solar systems ($4,878/kW). In 2010, German incentives for all renewables was about $17.9 billion, of which about half was for solar systems.   The average subsidy in 2010 was about ($9 billion x 1 euro/1.4 $)/12 TWh = 53.6 eurocents/kWh; no wonder solar energy is so popular in Germany. These subsidies are rolled into electric rates as fees or taxes, and will ultimately make Germany less competitive in world markets.   http://thebreakthrough.org/blog//2011/06/analysis_germanys_plan_to_phas-print.html http://mobile.bloomberg.com/news/2011-05-31/merkel-faces-achilles-heel-in-grids-to-unplug-german-nuclear.html http://www.theecologist.org/News/news_analysis/829664/revealed_how_your_country_compares_on_renewable_investment.html http://en.wikipedia.org/wiki/Solar_power_in_Germany  

French energy group Areva has entered tentative talks with the Tennessee Valley Authority that could pave the way for TVA’s nuclear plants to use fuel made from retired weapons. On Friday, the company announced it signed a letter of intent with TVA to initiate discussions on the use of fuel from the Department of Energy’s Mixed-Oxide Fuel Fabrication Facility. While it would not obligate TVA to use the fuel, the letter highlights the agency’s ongoing relationship with DOE in evaluating the fuel-from-weapons program

Scheduled to begin operating in 2016, the mixed-oxide facility at DOE’s Savannah River site in South Carolina will blend plutonium from disassembled weapons with depleted uranium oxide, according to the National Nuclear Security Administration. Using the fuel in commercial reactors would make the plutonium unfit for explosives and help meet a commitment made by the United States and Russia in 2000 to dispose of 68 metric tons of surplus plutonium. Shaw Areva MOX Services Llc. holds the contract to build and operate the South Carolina facility

According to NNSA, more than 30 commercial reactors currently use mixed-oxide fuel, including at plants in the United Kingdom, Germany, France, Belgium and Switzerland.

This morning Pieter, Xeni and I (pictured above) set out with Miles, along with father/son superteam Joe and Bryan Moross. The plan was to drop off a few Geiger counters with volunteers and try to cover some some new ground, perhaps near the exclusion zone. But it ended up being so much more.

The day began in Shinjuku around close to 7:30am when we picked up a rental car, this was a large group with a lot of gear so we had a need for two vehicles and the usual Safecast car on it’s own wasn’t quite enough. We wasted no time and started driving north. Depending on where you are in the city, background radiation levels in Tokyo hover right around 50 CPM which is only slightly higher than what we believe they were prior to 3/11 though we weren’t measuring things then so can’t be positive. For our purposes we are assuming the average around the country was 35 CPM which is worth noting before I start mentioning numbers going forward. It wasn’t too long in our trip before we hit our first hotspot in Nasu.

Our first stop was Nihonmatsu which is not too far from Koriyama to meet up with some volunteers in the area and hand out a few new sensors for them to take measurements with. We met at restaurant and of course started measuring things the moment we set foot in the parking lot. Levels were noticeably higher than we’d seen just a few hours prior in Tokyo.

The Kingdom of Saudi Arabia (KSA) plans to build 16 nuclear reactors over the next 20 years spending an estimated $7 billion on each plant. The $112 billion investment, which includes capacity to become a regional exporter of electricity, will provide one-fifth of the Kingdom’s electricity for industrial and residential use and, critically, for desalinization of sea water.

dom’s electricity for industrial and residential use and, critically, for desalinization of sea water.

This past April, the Saudi government announced the development of a nuclear city to train and house the technical workforce that will be needed to achieve these ambitions. It is clear that KSA’s plans for spending its sovereign wealth fund will be mostly focused on the home front. At the same time, a former Saudi ambassador to the United States , Prince Turki al-Faisal (served 2005-2006), has warned that a regional nuclear arms race could start if Iran does not curb its nuclear efforts. He told the Wall Street Journal on July 20, “It is in our interest that Iran does not develop a nuclear weapon, for their doing so would compel Saudi Arabia … to pursue policies that could lead to untold and possibly dramatic consequences.”

Six months after the Fukushima disaster, the repercussions of history’s second-largest nuclear meltdown are still being felt, not only in Japan but around the world. Predictably, people are rethinking the wisdom of relying on nuclear power. The German and Swiss governments have pledged to phase out the use of nuclear power, and Italy has shelved plans to build new reactors. Public debate on future nuclear energy use continues in the United Kingdom, Japan, Finland, and other countries.So far, it is unclear what the reaction of the Korean government will be. Certainly, the public backlash to nuclear energy that has occurred elsewhere in the world is also evident in Korea; according to one study, opposition to nuclear energy in Korea has tripled since the Fukushima disaster. However, there are countervailing considerations here as well, which have caused policy-makers to move cautiously. Korea’s economy is often seen as particularly reliant on the use of nuclear power due to its lack of fossil fuel resources, while Korean companies are some of the world’s most important builders (and exporters) of nuclear power stations.

There are three primary reasons why nuclear power is safer and greener than power generated using conventional fossil fuels. First ― and most importantly ― nuclear power does not directly result in the emission of greenhouse gases. Even when you take a life-cycle approach and factor in the greenhouse gas emissions from the construction of the plant, there is no contest. Fossil fuels ― whether coal, oil, or natural gas ― create far more global warming.

The negative effects of climate change will vastly outweigh the human and environmental consequences of even a thousand Fukushimas. This is not the place to survey all the dire warnings that have been coming out of the scientific community; suffice it to quote U.N. Secretary General Ban Ki-moon’s concise statement that climate change is the world’s “only one truly existential threat … the great moral imperative of our era.” A warming earth will not only lead to death and displacement in far-off locales, either. Typhoons are already hitting the peninsula with greater intensity due to the warming air, and a recent study warns that global warming will cause Korea to see greatly increased rates of contagious diseases such as cholera and bacillary dysentery.

A fortnight after writing $2.84bn (£1.84bn) off the value of its Fayetteville shale gas business in Arkansas, BHP is poised to reveal on Wednesday that the charge helped push down its profits by a massive 40 per cent – to $14.2bn – in the year to June 30.

The FTSE 100 mining giant was forced into the writedown after a decade-long stampede into the brave new world of US shale gas produced so much of the stuff that its price tumbled to 10-year lows, taking the value of its producers with them.

"The problem is exacerbated because the minerals leasing system in the US obliges lessees to drill fairly quickly or relinquish their drilling rights," he added.