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WikiLeaks cables reveal fears over China's nuclear safety [25Aug11] - 1 views

  • China has "vastly increased" the risk of a nuclear accident by opting for cheap technology that will be 100 years old by the time dozens of its reactors reach the end of their lifespans, according to diplomatic cables from the US embassy in Beijing.The warning comes weeks after the government in Beijing resumed its ambitious nuclear expansion programme, that was temporarily halted for safety inspections in the wake of the meltdown of three reactors in Fukushima, Japan
  • Cables released this week by WikiLeaks highlight the secrecy of the bidding process for power plant contracts, the influence of government lobbying, and potential weaknesses in the management and regulatory oversight of China's fast-expanding nuclear sector
  • n August, 2008, the embassy noted that China was in the process of building 50 to 60 new nuclear plants by 2020. This target – which has since increased – was a huge business opportunity. To keep up with the French and Russians, the cable urged continuous high-level advocacy on behalf of the US company Westinghouse to push its AP-1000 reactor.This is crucial, according to the cable dated 29 August 2008 from the American Embassy in Beijing, because "all reactor purchases to date have been largely the result of internal high level political decisions absent any open process."
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Japan gov't finds 165 locations over wide area with cesium-137 exceeding Chernobyl evac... - 1 views

  • Survey Finds Radiation Over Wide Area in Japan, Wall Street Journal, August 30, 2011:
  • The first comprehensive survey of soil contamination from the Fukushima Daiichi nuclear plant showed that 33 locations spread over a wide area have been contaminated with long-lasting radioactive cesium, the government said Tuesday. The survey of 2,200 locations within a 100-kilometer (62-mile) radius of the crippled plant found that those 33 locations had cesium-137 in excess of 1.48 million becquerels per square meter, the level set by the Soviet Union for forced resettlement after the 1986 Chernobyl disaster. Another 132 locations had a combined amount of cesium 137/134 over 555,000 becquerels per square meter, the level at which the Soviet authorities called for voluntary evacuation and imposed a ban on farming. [...] the latest data point to the possibility that cesium could also be washing away and spreading to other areas, potentially contaminating rivers, lower-lying land and the ocean. [...]
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Workers Entered Fukushima II (Daini) Reactor 4 [29Aug11] - 1 views

  • On August 29, workers entered the Containment Vessel of Reactor 4 at Fukushima II for the first time since March 11. No details of the work inside the Containment Vessel have been released by TEPCO yet.
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Tritium leaks hit three-quarters of U.S. nuclear plants [27Jun11] - 1 views

  • Radioactive tritium has leaked from three-quarters of U.S. commercial nuclear power sites, often into groundwater from corroded, buried piping, an Associated Press investigation shows.
  • The number and severity of the leaks has been escalating, even as federal regulators extend the licenses of more and more reactors across America. Tritium, which is a radioactive form of hydrogen, has leaked from at least 48 of 65 sites, according to U.S. Nuclear Regulatory Commission records reviewed as part of the AP's yearlong examination of safety issues at aging nuclear power plants. Leaks from at least 37 of those facilities contained concentrations exceeding the federal drinking water standard — sometimes at hundreds of times the limit.
  • While most leaks have been found within plant boundaries, some have migrated offsite. But none is known to have reached public water supplies. STORY: Regulators weaken safety standards for nuclear reactors At three sites — two in Illinois and one in Minnesota — leaks have contaminated drinking wells of nearby homes, the records show, but not at levels violating the drinking water standard. At a fourth site, in New Jersey, tritium has leaked into an aquifer and a discharge canal feeding picturesque Barnegat Bay off the Atlantic Ocean.
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  • Any exposure to radioactivity, no matter how slight, boosts cancer risk, according to the National Academy of Sciences. Federal regulators set a limit for how much tritium is allowed in drinking water, where this contaminant poses its main health risk. The U.S. Environmental Protection Agency says tritium should measure no more than 20,000 picocuries per liter in drinking water. The agency estimates seven of 200,000 people who drink such water for decades would develop cancer.
  • The tritium leaks also have spurred doubts among independent engineers about the reliability of emergency safety systems at the 104 nuclear reactors situated on the 65 sites. That's partly because some of the leaky underground pipes carry water meant to cool a reactor in an emergency shutdown and to prevent a meltdown. Fast moving, tritium can indicate the presence of more powerful radioactive isotopes, like cesium-137 and strontium-90.
  • So far, federal and industry officials say, the tritium leaks pose no health or safety threat. Tony Pietrangelo, chief nuclear officer of the industry's Nuclear Energy Institute, said impacts are "next to zero." LEAKS ARE PROLIFIC
  • Like rust under a car, corrosion has propagated for decades along the hard-to-reach, wet underbellies of the reactors — generally built in a burst of construction during the 1960s and 1970s. There were 38 leaks from underground piping between 2000 and 2009, according to an industry document presented at a tritium conference. Nearly two-thirds of the leaks were reported over the latest five years
  • For example, at the three-unit Browns Ferry complex in Alabama, a valve was mistakenly left open in a storage tank during modifications over the years. When the tank was filled in April 2010, about 1,000 gallons (3,785 liters) of tritium-laden water poured onto the ground at a concentration of 2 million picocuries per liter. In drinking water, that would be 100 times higher than the EPA health standard. And in 2008, 7.5 million picocuries per liter leaked from underground piping at Quad Cities in western Illinois — 375 times the EPA limit.
  • Subsurface water not only rusts underground pipes, it attacks other buried components, including electrical cables that carry signals to control operations. A 2008 NRC staff memo reported industry data showing 83 failed cables between 21 and 30 years of service - but only 40 within their first 10 years of service. Underground cabling set in concrete can be extraordinarily difficult to replace.
  • Under NRC rules, tiny concentrations of tritium and other contaminants are routinely released in monitored increments from nuclear plants; leaks from corroded pipes are not permitted. The leaks sometimes go undiscovered for years, the AP found. Many of the pipes or tanks have been patched, and contaminated soil and water have been removed in some places. But leaks are often discovered later from other nearby piping, tanks or vaults. Mistakes and defective material have contributed to some leaks. However, corrosion - from decades of use and deterioration - is the main cause. And, safety engineers say, the rash of leaks suggest nuclear operators are hard put to maintain the decades-old systems.
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It's 2050: Do you know where your nuclear waste is? [09Sep11] - 1 views

  • 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
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  • All countries with well-established nuclear programs have found themselves requiring spent fuel storage in addition to spent fuel pools at reactors. Some, like the US, use dry storage designs, such as individual casks or storage vaults that are located at reactor sites; other countries, Germany for one, use away-from-reactor facilities. Sweden has a large underground pool located at a centralized facility, CLAB, to which different reactors send their spent fuel a year after discharge, so spent fuel does not build up at reactor sites. Dry storage tends to be cheaper and can be more secure than wet storage because active circulation of water is not required. At the same time, because dry storage uses passive air cooling, not the active cooling that is available in a pool to keep the fuel cool, these systems can only accept spent fuel a number of years after discharge.6
  • The United States had been working toward developing a high-level waste repository at Yucca Mountain, Nevada; this fell through in 2010, when the Obama administration decided to reverse this decision, citing political “stalemate” and lack of public consensus about the site. Instead, the Obama administration instituted the Blue Ribbon Commission on America’s Nuclear Future to rethink the management of the back end of the nuclear fuel cycle.8 The US can flaunt one success, though. The Waste Isolation Pilot Project (WIPP), located near Carlsbad in southern New Mexico, is actually the only operating deep geologic repository for intermediate level nuclear waste, receiving waste since 1998. In the case of WIPP, it only accepts transuranic wastes from the nuclear weapons complex. The site is regulated solely by the Environmental Protection Agency, and the state of New Mexico has partial oversight of WIPP through its permitting authority established by the Resource Conservation and Recovery Act. The city of Carlsbad is supportive of the site and it appears to be tolerated by the rest of the state.9
  • France has had more success after failing in its first siting attempt in 1990, when a granite site that had been selected drew large protests and the government opted to rethink its approach to nuclear waste disposal entirely. In 2006, the government announced that it needed a geologic repository for high-level waste, identified at least one suitable area, and passed laws requiring a license application to be submitted by 2015 and the site to begin receiving high-level waste by 2025.
  • Canada recently rethought the siting process for nuclear waste disposal and began a consensus-based participatory process. The Canadian Nuclear Waste Management Organization was established in 2002, after previous attempts to site a repository failed. The siting process began with three years’ worth of conversations with the public on the best method to manage spent fuel. The organization is now beginning to solicit volunteer communities to consider a repository, though much of the process remains to be decided, including the amount and type of compensation given to the participating communities.
  • the most difficult part of the back end of the fuel cycle is siting the required facilities, especially those associated with spent fuel management and disposal. Siting is not solely a technical problem—it is as much a political and societal issue. And to be successful, it is important to get the technical and the societal and political aspects right.
  • After weathering the Fukushima accident, and given the current constraints on carbon dioxide emissions and potential for growth of nuclear power, redefinition of a successful nuclear power program is now required: It is no longer simply the safe production of electricity but also the safe, secure, and sustainable lifecycle of nuclear power, from the mining of uranium ores to the disposal of spent nuclear fuel. If this cannot be achieved and is not thought out from the beginning, then the public in many countries will reject nuclear as an energy choice.
  • Certain elements—including an institution to site, manage, and operate waste facilities—need to be in place to have a successful waste management program. In some countries, this agency is entirely a government entity, such as the Korea Radioactive Waste Management Organization. In other countries, the agency is a corporation established by the nuclear industry, such as SKB in Sweden or Posiva Oy in Finland. Another option would be a public– private agency, such as Spain’s National Company for Radioactive Waste or Switzerland’s National Cooperative for the Disposal of Radioactive Waste.
  • Funding is one of the most central needs for such an institution to carry out research and development programs; the money would cover siting costs, including compensation packages and resources for local communities to conduct their own analyses of spent fuel and waste transportation, storage, repository construction, operations, security and safeguards, and future liabilities. Funds can be collected in a number of ways, such as putting a levy on electricity charges (as is done in the US) or charging based on the activity or volume of waste (Hearsey et al., 1999). Funds must also be managed—either by a waste management organization or another industry or government agency—in a way that ensures steady and ready access to funds over time. This continued reliable access is necessary for planning into the future for repository operations.
  • the siting process must be established. This should include decisions on whether to allow a community to veto a site and how long that veto remains operational; the number of sites to be examined in depth prior to site selection and the number of sites that might be required; technical criteria to begin selecting potential sites; non-technical considerations, such as proximity to water resources, population centers, environmentally protected areas, and access to public transportation; the form and amount of compensation to be offered; how the public is invited to participate in the site selection process; and how government at the federal level will be involved.
  • The above are all considerations in the siting process, but the larger process—how to begin to select sites, whether to seek only volunteers, and so on—must also be determined ahead of time. A short list of technical criteria must be integrated into a process that establishes public consent to go forward, followed by many detailed studies of the site—first on the surface, then at depth. There are distinct advantages to characterizing more than one site in detail, as both Sweden and Finland have done. Multiple sites allow the “best” one to be selected, increasing public approval and comfort with the process.
  • he site needs to be evaluated against a set of standards established by a government agency in the country. This agency typically is the environmental agency or the nuclear regulatory agency. The type of standards will constrain the method by which a site will be evaluated with regard to its future performance. A number of countries use a combination of methods to evaluate their sites, some acknowledging that the ability to predict processes and events that will occur in a repository decrease rapidly with each year far into the future, so that beyond a few thousand years, little can be said with any accuracy. These countries use what is termed a “safety case,” which includes multiple lines of evidence to assure safe repository performance into the future.
  • Moving forward
  • France, Canada, and Germany also have experienced a number of iterations of repository siting, some with more success than others. In the 1970s, Germany selected the Gorleben site for its repository; however, in the late 1990s, with the election of a Red–Green coalition government (the Greens had long opposed Gorleben), a rethinking of repository siting was decreed, and the government established the AkEnd group to re-evaluate the siting process. Their report outlined a detailed siting process starting from scratch, but to date too much political disagreement exists to proceed further.
  • Notes
  • Nuclear wastes are classified in various ways, depending on the country or organization doing the classification. The International Atomic Energy Agency (IAEA) notes six general categories of waste produced by civil nuclear power reactors: exempt waste, very short-lived waste, and very low level waste can be stored and then disposed of in landfill-type settings; low level waste, intermediate level waste, and high-level waste require more complex facilities for disposal.
  • Sweden is currently the country closest to realizing a final solution for spent fuel, after having submitted a license application for construction of a geologic repository in March 2011. It plans to open a high-level waste repository sometime after 2025, as do Finland and France.
  • Some countries, such as Sweden, Finland, Canada, and, until recently, the US, plan to dispose of their spent fuel directly in a geologic repository. A few others, such as France, Japan, Russia, and the UK have an interim step. They reprocess their spent fuel, extract the small amount of plutonium produced during irradiation, and use it in new mixed oxide (MOX) fuel. Then they plan to dispose of the high-level wastes from reprocessing in a repository.
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The Bomb Plant « « DC Bureau | Environmental and National Security Stories Th... - 1 views

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    About MOX fuel, a documentary
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Today's plants far safer than Fukushima: US expert [14Sep11] - 1 views

  • The first of Fukushima Dai-ichi's six nuclear reactors came online in 1970, a full nine years before the Three-Mile Island crisis in the United States and 16 years before Chernobyl, the world's worst nuclear disaster. "The Fukushima plants were early plants, and so... more modern designs would be much more robust in their capability to deal with the situation" that Japan faced, said former US Nuclear Regulatory Commission chairman Richard Meserve. "Plants are much safer in their designs today." On March 11, a 9.0-magnitude quake rocked Fukushima, and the resulting 14-meter (46-foot) ocean wave drowned the plant, knocking out the power supply, the reactor cooling systems and back-up diesel generators.
  • Meserve said Fukushima's designers should have looked at historical data which showed a similar-sized tsunami hit the area in the year 869. The plant, he said, was designed to be able to accommodate a 5.7-meter tsunami. Meserve, an advisor to the UN's International Atomic Energy Agency, said plant developers in the United States always look at "what's the maximum probable event in that environment," and design accordingly. "It appears that this was not the case with regard to the Fukushima plant," he said. While its layout and design would not be considered by today's builders, Meserve stressed that Fukushima, for its day, was not seen as unsafe.
  • Designs have improved substantially in large part because engineers are "continuously learning from what has happened in the past and making sure that you learn from experience so that history is not repeated." Aside from advances like high-quality construction and passive safety systems that override human failures, today's designers incorporate what's known as "probabalistic risk assessment," which looks at the likelihood of events that could cause damage.
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China's pause for thought after Fukushima [16Sep11] - 1 views

  • "Fukushima made a huge impact on China's nuclear industry," Yun Zhou, a special consultant of Ux Consulting and research fellow at Harvard University, told the WNA Symposium. The country will rethink regulation before returning to full-speed nuclear build. 
  • As a major growing global power, China has a nuclear power program to match. With 14 reactors in operation, it currently has almost twice this number under construction and might still approach 60-70 GWe nuclear capacity in operation by 2020, despite the effects of the Fukushima accident.   Uniquely, the country has been able to take advantage of today's well developed nuclear industry, including highly experienced suppliers, robust international standards of nuclear and radiation safety, and the sharing of operational experience by the World Association of Nuclear Operators. Most of the world's major nuclear countries formed their own nuclear industries without these benefits.   Nevertheless, any country's regulatory system remains an entirely sovereign responsibility and the Fukushima accident made Chinese leaders re-assess the suitability and capability of theirs - in the context of having already planned and approved more new reactors than had been expected.   New build 
  • Speaking at the WNA Symposium today, Zhou noted that China has been the only country to halt new reactor approvals. During this pause, the country has re-assessed the safety of its planned and approved Generation-II reactor projects. New safety standards are being drawn up at the same time as a draft of an Atomic Energy Law, which might emerge at the end of this year.   While the safety assessments conducted after the Fukushima accident have had no detrimental effect on any of the projects under construction, the implications of the new standards remain to be seen. Meanwhile, China's attitude to public safety has evolved in a more risk-averse direction following some incidents of public unrest and accidents in the last year - notably the high-speed train accident. It is highly likely that communities will have more involvement in new nuclear siting decisions.   Zhou presented three scenarios by UxC for Chinese nuclear development - all returning to the same phenomenal rate of build, but offset by different periods of reflection and reorganisation.
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  • Regulatory changes    The size, budget and capability of the Chinese regulatory system should grow dramatically. It is currently overseen by a staff of 30-40 at the National Nuclear Safety Administration, with support from the Nuclear and Radiation Safety Centre's 200 technical experts. Inspection of power plants and equipment suppliers, as well as radiation monitoring, is undertaken by six regional centres.   This set-up runs on a budget that is a tiny fraction of parallel regimes in other countries - and some budgetary areas have not been growing at the same speed as reactor build, said Zhou.   Overall, she considered the system "on a par with global standards." But while there exists the proper strong safety culture, led from the top of the regime, there is a "lack of experience and technical capability to identify the technical issues," which has manifested itself in some construction delays.
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Asahi: Explosive hydrogen may be coming from melted fuel rods and "accumulating near th... - 1 views

  • Hydrogen accumulates in pipes at Fukushima’s No. 1 reactor, Asahi, September 24, 2011:
  • Hydrogen has accumulated to a level higher than previously thought in pipes connected to the No. 1 reactor containment vessel [...] The nitrogen injections are believed to have lowered the hydrogen concentration considerably, but some hydrogen, being lighter than nitrogen, may be accumulating near the top of the containment vessel without being driven out. [...] Nor could TEPCO measure how much hydrogen may have been generated in the containment vessel. [...] TEPCO said it is investigating the possibility that hydrogen has also accumulated in a similar manner at the plant’s No. 2 and No. 3 reactors. [...]
  • Where does TEPCO think the hydrogen is coming from?
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  • TEPCO said most of the accumulated hydrogen was generated by a reaction under high temperatures between water vapor and the surface of nuclear fuel rods that were exposed after water was lost following the March 11 earthquake and tsunami. Even now, the damaged reactors may be generating small amounts of hydrogen as water decomposes through irradiation from the melted fuel rods.
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Fukushima N-response centre lost functions [27Sep11] - 1 views

  • A power loss shut down an off-site emergency response centre near the Fukushima No 1 nuclear power plant for half a day after the Great East Japan Earthquake on March 11, delaying the initial response to the nuclear disaster at the power plant, according to sources. According to the Nuclear and Industrial Safety Agency, the centre lost its external power supply immediately after the earthquake, and an emergency diesel generator stopped operating soon after. Due to the power loss, agency officials stationed at the centre were unable to use important equipment such as monitors that show conditions inside the plant. The agency, which believes the earthquake caused the generator to break down, had not taken any anti-seismic reinforcement measures to protect the generator, the agency said.
  • The government panel tasked with investigating the nuclear crisis has begun studying the case, according to the sources. The off-site centre is located in Okumamachi, Fukushima Prefecture, about five kilometres from the nuclear power plant.
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TEPCO Now Says There Was No Hydrogen Explosion at Reactor 2 [01Oct11] - 1 views

  • From Yomiuri Shinbun (3:03AM JST 10/2/2011):
  • Details of an interim report by TEPCO's internal "Fukushima nuclear accident investigation committee" (headed by Vice President Masao Yamazaki) were revealed.
  • The committee reversed the company's position that there had been a hydrogen explosion in Reactor 2, and now concluded there was no such explosion. As to the tsunami that triggered the accident, the committee says "it was beyond expectations"; of the delay in initial response to the accident, the committee concludes "it couldn't be helped". Overall, the report looks full of self-justification. TEPCO plans to run the report with the verification committee made of outside experts before it publishes the report.
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  • At Fukushima I Nuclear Power Plant, the Reactor 1 reactor building blew up in a hydrogen explosion in the afternoon of March 12, followed by a hydrogen explosion of Reactor 3 in the morning of March 14. Further, in the early morning on March 15, there was an explosive sound, and the damage to the Reactor 4 reactor building was confirmed. Right after the explosive sound the pressure in the Suppression Chamber of Reactor 2 dropped sharply, which led TEPCO to conclude that there were near-simultaneous explosions in Reactors 2 and 4. The Japanese government reported the events as such in the report to IAEA in June.So then what does TEPCO now think happened in Reactor 2 in the early morning on March 15? Yomiuri doesn't say in the article text, but at the bottom of the illustration that accompanies the article it says:"There was no explosion, but a possibility of some kind of damage to the Containment Vessel."So, before TEPCO completely changes story, here's what they say happened on Reactor 4 on March 15 (from the daily "Status of TEPCO's Facilities - past progress" report, page 6):
  • It says "abnormal sound was confirmed near the suppression chamber" at 6:14AM on March 15.Now, this is what TEPCO says about Reactor 4 on the same day, about the same time, from Page 16:
  • It says "an explosive sound was heard" at 6AM on March 15. The Reactor 4 explosion occurred before the Reactor 2 "explosion" which TEPCO now says never happened.The two sounds are 14 minutes apart, and TEPCO now claims they misheard the second one and there was no explosion in the Suppression Chamber of Reactor 2.(By the way, the fire spotted at 9:38AM on March 15 on Reactor 4 was never reported to the local fire department or the local government, as I reported on March 15.)
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India's nuclear future put on hold [06Oct11] - 1 views

  • An increase in anti-nuclear sentiment after the Fukushima disaster in Japan in March has stalled India's ambitious plan for nuclear expansion. The plan, pushed forward by Prime Minister Manmohan Singh, aims to use reactors imported from the United States, France and Russia to increase the country's nuclear-power capacity from the present 4,780 megawatts to 60,000 megawatts by 2035, and to provide one-quarter of the country's energy by 2050. But now there are doubts that the targets will ever be met if safety fears persist.
  • Officials say that safety precautions are sufficient to make the proposed reactors, some of which are to be sited along the coasts, immune to natural disasters. But protesters are not listening. In April, violent protests halted construction in Jaitapur in the western state of Maharashtra, where Parisian company Areva is expected to build six 1,650-megawatt European Pressurized Reactors. In August, West Bengal state refused permission for a proposed 6,000-megawatt 'nuclear park' near the town of Haripur, which was slated to host six Russian reactors. The state government said that the area is densely populated, and the hot water discharged from the plants would affect local fishing.
  • On 19 September, following hunger strikes by activists from the People's Movement Against Nuclear Technology, the chief minister of Tamil Nadu state asked Prime Minister Singh to halt work at Koodankulam, about 650 kilometres south of Chennai, where Russia's Atomstroyexport is building two reactors and plans to build four more.
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  • The opposition has focused mainly on imported reactors, the designs of which are untried. "The French reactor offered to India is not working anywhere in the world and the Russian reactor had to undergo several design changes before we accepted it," says Annaswamy Prasad, retired director of the Bhabha Atomic Research Centre in Mumbai. "If any accident happens in India it will be in imported reactor and not in our home-made pressurized heavy water reactors" (PHWRs), he adds.
  • Ideally, says Prasad, India should boost its nuclear capacity by building more PHWRs fuelled by natural uranium, instead of importing reactors that require enriched uranium. Although the foreign vendors have agreed to supply fuel for the lifetime of their reactors, overreliance on imports will derail India's home-grown programme, the Bhabha scheme, he warns.
  • The Bhabha scheme involves building PHWRs, which would produce enough plutonium as a by-product to fuel fast-breeder reactors that would in turn convert thorium — which is abundantly available in India — into fissile uranium-233. In the third and final phase, India hopes to run its reactors using the 233U–Th cycle without any need for new uranium. Gopalakrishnan says that building indigenous reactors is not enough: the country must also invest in renewable energy sources, such as wind and solar power. But a survey by Subhas Sukhatme, a former chairman of the Atomic Energy Regulatory Board, warns that India's renewable energy sources, even stretched to their full potential, can at best supply 36.1% of the country's total energy needs by the year 2070. The balance would have to come from fossil fuels and nuclear energy. 
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TEPCO uses low-level radioactive water to spray Fukushima nuclear compound [09Oct11] - 1 views

  • Tokyo Electric Power Co. (TEPCO) has begun processing low-level radioactive water and spraying it over the compound of the crippled Fukushima No. 1 Nuclear Power Plant to prevent fires and the scattering of radioactive dust, the utility announced on Oct. 7.
  • The water comes from the plant's No. 5 and No. 6 reactors, which remain in a state of a cold shutdown, and is being used after the removal of radioactive materials and salt content. The move is aimed at preventing trees felled on the plant compound from catching fire and dust containing radioactive materials from scattering, the utility said. A daily amount of 100 cubic meters of water will be sprayed over the ground.
  • Since the March 11 quake and tsunami, seawater from the tsunami and rainwater have been accumulating in the basement of the reactor buildings and turbine buildings of the No. 5 and No. 6 reactors. Makeshift tanks and an artificial floating island, or "megafloat," have so far accommodated 17,000 cubic meters of this water but they are close to overflowing. TEPCO aims to utilize the remaining water, after it has been purified, to spray the compound. The measure has been approved by the Fukushima Prefectural Government and municipalities in Fukushima and Ibaraki prefectures, according to TEPCO.
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Latest radiation tests in Tokyo raise "unprecedented concerns" about Fukushima aftermat... - 1 views

  • Tokyo, Oct. 14 — Tokyo radiation measurements “raise major and unprecedented concerns about the aftermath of the Fukushima nuclear disaster.” -Robert Alvarez, a nuclear expert and a former special assistant to the United State Secretary of Energy “Radioactive substances are entering people’s bodies from the air, from the food. It’s everywhere. But the government doesn’t even try to inform the public how much radiation they’re exposed to.” -Kiyoshi Toda, a radiation expert at Nagasaki University’s faculty of environmental studies and a medical doctor“Everybody just wants to believe that this is Fukushima’s problem. But if the government is not serious about finding out, how can we trust them?” -Kota Kinoshita, one of the citizen groups’ leaders and a former television journalist
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Digital Archive of Japan's 2011 Disasters - 1 views

  •  
    May provide useful additional information, not directly about nuclear but rather, the entire event
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Parts of Japan now rendered 'uninhabitable zones' due to Fukushima [20 Oct11] - 1 views

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    video
Dan R.D.

$280m fund for home-based solar the largest yet [14Jun11] - 0 views

  • Google and SolarCity have launched a $280 million fund to help bring solar power to residential customers. It’s Google’s largest investment to date in the clean-energy sector, as well as the largest residential solar fund ever created in the US. It’s also the 15th project fund for SolarCity, which has worked with seven different partners to finance $1.28 billion in solar projects. “Google is setting an example that other leading American companies can follow,” said Lyndon Rive, CEO of SolarCity. “The largest 200 corporations in the US have more than $1 trillion in cash on their balance sheets. Investments in solar energy generate returns for corporate investors, offer cost savings for homeowners, create new, local jobs for jobseekers, and protect the environment from polluting power sources. If more companies follow Google’s lead, we can dramatically reduce our nation’s dependence on polluting power.”
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Electric cars may not be so green after all, says British study [10Jun11] - 0 views

  • An electric car owner would have to drive at least 129,000km before producing a net saving in CO2. Many electric cars will not travel that far in their lifetime because they typically have a range of less than 145km on a single charge and are unsuitable for long trips. Even those driven 160,000km would save only about a tonne of CO2 over their lifetimes.
  • The British study, which is the first analysis of the full lifetime emissions of electric cars covering manufacturing, driving and disposal, undermines the case for tackling climate change by the rapid introduction of electric cars.
  • The Committee on Climate Change, the UK government watchdog, has called for the number of electric cars on Britain's roads to increase from a few hundred now to 1.7 million by 2020.
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  • The study was commissioned by the Low Carbon Vehicle Partnership, which is jointly funded by the British government and the car industry. It found that a mid-size electric car would produce 23.1 tonnes of CO2 over its lifetime, compared with 24 tonnes for a similar petrol car. Emissions from manufacturing electric cars are at least 50 per cent higher because batteries are made from materials such as lithium, copper and refined silicon, which require much energy to be processed.
  • Many electric cars are expected to need a replacement battery after a few years. Once the emissions from producing the second battery are added in, the total CO2 from producing an electric car rises to 12.6 tonnes, compared with 5.6 tonnes for a petrol car. Disposal also produces double the emissions because of the energy consumed in recovering and recycling metals in the battery. The study also took into account carbon emitted to generate the grid electricity consumed.
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First Laser Made of Living Cells Has Arrived [16Jun11] - 0 views

  • In an article published in Nature Photonics, researchers Malte Gather and Seok Hyun Yun describe how a solution made from GFP was used in combination with a mirrored chamber to create a laser. From this preliminary test, Gather and Yun were able to determine how much GFP was required to create the laser light. Using this result, they then moved ahead to genetically engineer mammalian cells that could express the GFP at the required levels.
  • The researchers report that they were able to create bright laser pulses that lasted a few nanoseconds with a single cell. Amazingly the cells were not damaged during the production of the laser light but were able to withstand hundreds of pulses. Furthermore, the spherical shape of the cell itself acted as a lens “refocusing the light and inducing emission of laser light at lower energy levels than required for the solution-based device.”
  • Although there are no immediate plans to use this technology, the erosion of the barrier between optical technologies and biology could open many doors in therapy and research. Gather tells PhysOrg.com that they “hope to be able to implant a structure equivalent to the mirrored chamber right into a cell, which would [sic] the next milestone in this research."
Jan Wyllie

Full Meltdown: Fukushima Called the 'Biggest Industrial Catastrophe in the History of M... - 0 views

  • Fukushima has three nuclear reactors exposed and four fuel cores exposed," he said, "You probably have the equivalent of 20 nuclear reactor cores because of the fuel cores, and they are all in desperate need of being cooled, and there is no means to cool them effectively.
  • TEPCO has been spraying water on several of the reactors and fuel cores, but this has led to even greater problems, such as radiation being emitted into the air in steam and evaporated sea water - as well as generating hundreds of thousands of tons of highly radioactive sea water that has to be disposed of.
  • "They are pouring in water and the question is what are they going to do with the waste that comes out of that system, because it is going to contain plutonium and uranium. Where do you put the water?"
  • ...13 more annotations...
  • The water picks up enormous amounts of radiation, so you add more water and you are generating hundreds of thousands of tons of highly radioactive water."
  • "They recalculated the amount of radiation released, but the news is really not talking about this," he said. "The new calculations show that within the first week of the accident, they released 2.3 times as much radiation as they thought they released in the first 80 days."
  • a nuclear waste advisor to the Japanese government reported that about 966 square kilometres near the power station - an area roughly 17 times the size of Manhattan - is now likely uninhabitable.
  • far more radiation has been released than has been reported.
  • "We have 20 nuclear cores exposed, the fuel pools have several cores each, that is 20 times the potential to be released than Chernobyl,"
  • the exposed reactors and fuel cores are continuing to release microns of caesium, strontium, and plutonium isotopes. These are referred to as "hot particles".
  • "We are discovering hot particles everywhere in Japan, even in Tokyo," he said. "Scientists are finding these everywhere. Over the last 90 days these hot particles have continued to fall and are being deposited in high concentrations. A lot of people are picking these up in car engine air filters."
  • Clearly people in Fukushima prefecture have breathed in a large amount of these particles. Clearly the upper West Coast of the US has people being affected. That area got hit pretty heavy in April.
  • Why have alarms not been sounded about radiation exposure in the US?
  • Nuclear operator Exelon Corporation has been among Barack Obama's biggest campaign donors, and is one of the largest employers in Illinois where Obama was senator
  • Using nuclear power to produce electricity in Japan is a product of the nuclear policy of the US
  • Gundersen worries about more earthquake aftershocks, as well as how to cool two of the units. "Unit four is the most dangerous, it could topple," he said. "After the earthquake in Sumatra there was an 8.6 [aftershock] about 90 days later, so we are not out of the woods yet. And you're at a point where, if that happens, there is no science for this, no one has ever imagined having hot nuclear fuel lying outside the fuel pool. They've not figured out how to cool units three and four."
  • "With Three Mile Island and Chernobyl, and now with Fukushima, you can pinpoint the exact day and time they started," he said, "But they never end."
    • D'coda Dcoda
       
      Actually, this is exactly what I expected given the history of nuclear energy and the history of inadequate safeguards, ignoring safety regulations, etc.
  •  
    A "NEVER ENDING DISASTER" - A new rendition of Hofstadter's Law about how things take longer than expected ... it's always worse than expected, even when you expect the worse.
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