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The Australian Government is committed to strengthening occupational health and safety requirements for individuals working at uranium mining and milling sites. The Australian Government is committed to strengthening occupational health and safety requirements for individuals working at uranium mining and milling sites.

The Australian National Radiation Dose Register (ANRDR) was established in 2010 to collect, store, manage and disseminate records of radiation doses received by workers in the course of their employment in a centralised database. The ANRDR has been open to receive dose records from operators since 1 July 2010. The ANRDR was officially launched in June 2011 following full development of the Register, including a system for workers to be able to request their individual dose history record.

The ANRDR is maintained and managed by the Australian Radiation Protection and Nuclear Safety Agency (ARPANSA).

The destroyed Fukushima nuclear plant in Japan was responsible for the biggest discharge of radioactive material into the ocean in history, a study from a French institute said. The radioactive cesium that flowed into the ocean from the Fukushima Dai-Ichi nuclear plant was 20 times the amount estimated by its owner, Tokyo Electric Power Co., according to the study by the Institute for Radiological Protection and Nuclear Safety, which is funded by the French government. It’s the second report released in a week calling into question estimates from Japan’s government and the operator of the plant that was damaged in the March earthquake and tsunami. Tokyo Electric’s Fukushima station may have emitted more than double the company’s estimate of atmospheric release at the height of the worst civil atomic crisis since Chernobyl in 1986. End Extract http://mobile.bloomberg.com/news/2011-10-31/fukushima-plant-released-record-amount-of-radiation-into-ocean?category=%2Fnews%2Fmostread%2F

Heavy rain brought by a tropical storm has increased the level of radioactive contaminated water at the basements of the crippled Fukushima Daiichi nuclear power plant. Typhoon Ma-on moved east off the southern coast of Japan's main island of Honshu. 115 millimeters of precipitation was recorded in Namie Town, north of the plant, between Tuesday and Thursday. Rain has been gathering in the buildings housing the reactors because the roofs were severely damaged by hydrogen explosions that occurred after the initial March 11th disaster. Tokyo Electric Power Company or TEPCO, the plant's operator, says that at 7 AM local time on Thursday, the level of contaminated water pooled at the basement of the building of the No. 1 reactor was 44 centimeters up from the previous day. Officials at the utility say that there is no immediate danger of the contaminated water spilling out. But it is likely that the level of water will continue to rise for the time being. TEPCO says they are monitoring the situation.

Heavy rain brought by a tropical storm has increased the level of radioactive contaminated water at the basements of the crippled Fukushima Daiichi nuclear power plant. Typhoon Ma-on moved east off the southern coast of Japan's main island of Honshu. 115 millimeters of precipitation was recorded in Namie Town, north of the plant, between Tuesday and Thursday. Rain has been gathering in the buildings housing the reactors because the roofs were severely damaged by hydrogen explosions that occurred after the initial March 11th disaster. Tokyo Electric Power Company or TEPCO, the plant's operator, says that at 7 AM local time on Thursday, the level of contaminated water pooled at the basement of the building of the No. 1 reactor was 44 centimeters up from the previous day. Officials at the utility say that there is no immediate danger of the contaminated water spilling out. But it is likely that the level of water will continue to rise for the time being. TEPCO says they are monitoring the situation.

Heavy rain brought by a tropical storm has increased the level of radioactive contaminated water at the basements of the crippled Fukushima Daiichi nuclear power plant. Typhoon Ma-on moved east off the southern coast of Japan's main island of Honshu. 115 millimeters of precipitation was recorded in Namie Town, north of the plant, between Tuesday and Thursday.

At North Anna nuclear plant, reassurances but no final data on quake impact, Washington Post by Brian Vastag, September 2, 2011:

[...] Yet nearly two weeks after the quake, Dominion officials were unable to say whether the quake shook the facility more than it was designed to handle. “I don’t have those numbers,” Daniel Stoddard, Dominion’s senior vice president for nuclear operations, said repeatedly. It will be another week before final analysis of the “shake plates,” which recorded ground motion at the site, is finished, he said, although a Dominion spokesman had promised that analysis by Friday. In the control room, a 1970s-era seismic detector failed to record data for a critical eight seconds when primary power went down, slowing the company’s analysis. The company has added a battery backup to the unit to prevent a recurrence. [...]

American Energy Fields, Inc. (OTCBB:AEFI), formerly Sienna Resources, Inc. is a uranium exploration and development company based in Arizona. Their focus is uranium deposits in the United States. The Company’s three main projects (in which they have sole interest) are  the Coso and Blythe  projects in California, and Artillery Peak project in Arizona. All three properties have been previously explored and developed, and are currently in early exploration stages.  A 43-101 technical report for the Artillery Peak project is available for review on American Energy Field’s website. What we like about American Energy Fields, Inc: Over 9.2 million pounds U3O8 historic resources with 2.8 million pounds 43-101 verified More than $25 million in development work, by past operators, has been spent on AEFI’s current projects Committed to near term production of low cost U.S. Uranium

The Artillery Peak property consists of 1,777 acres of federal land and is located 112 miles northeast of Phoenix, Arizona. American Energy Fields’ historic records indicate 1.7 million pounds of uranium was previously identified through exploration on Artillery Peak. There has been significant exploration work completed on the property, including over 400 holes drilled by Jacquays Mining, Homestake Mining, Hecla Mining, Getty Oil, Public Service Company of Oklahoma, and Santa Fe Mining between the 1950s-1970s. A 1979 report by Central and South West Fuels, Inc. found that the northern portion of the property contains a historical resource of 1.7 million pounds U3O8 with an average grade of 0.113%. In 2007/2008 new exploration was conducted which included 34 additional drill holes to verify historic drilling and further delineate mineralization. In 1979, the Department of Energy conducted an evaluation of the Date Creek Basin and the Artillery Mountains where they estimated that the area could contain as much as 1,260,000,000 pounds of U3O8. The Company will begin a preliminary exploration program to verify the historic data reported by Central and South West Fuels Inc.

Coso – Inyo County – California The Coso project covers 169 federal mining claims and 800 state-owned acres and was previously developed by Western Nuclear, Pioneer Resources, Federal Resources, and Union Pacific Mining/Rocky Mountain Energy. An estimated U.S. $20,000,000.00 was spent on exploration and development of the project, including an engineered pit design, where exploration records indicate 5.5 million lbs. of uranium was identified with an average grade of 0.07 U3O8. American Energy Fields recently received its exploration permit for the 800 state-owned acres from the California Land Department and is currently developing an exploration plan to confirm the historic data with the goal of moving the project towards production. Blythe – Riverside County – California The Blythe project consists of 66 Federal mining claims in Riverside County, California covering 3 historic mines, the Safranek, the McCoy Wash, and the Little Ore Hill operated by Humbug Mining and Bokum Corporation. According to Bokum’s records during the years of 1963 to 1964, the Safranek Mine produced and shipped 1,400 tons of uranium ore averaging 0.80% U308 to the VCA mill in Salt Lake City, Utah for processing. These records also indicate the Safranek site currently contains 100 tons at 0.40% U3O8 and 4,000 tons at 0.30% U3O8 of stockpiled ore, while the McCoy Wash has 3,000 tons of stockpiled ore with a grade of 0.20% U3O8. Bokum Corporation drilled the property in the early 1970s and the results indicated approximately 153,000 lbs of U3O8 while outlining a further potential for an additional 2,000,000 lbs of U3O8. American Energy Fields aims to identify, expand, and develop the ore body with the goal of putting the past producing mines back into production. Management

LONDON, UK, November 9, 2011 (ENS) - Unless there is a "bold change of policy direction," the world will lock itself into an insecure, inefficient and high-carbon energy system, the International Energy Agency warned at the launch of its 2011 World Energy Outlook today in London. The report says there is still time to act, but despite steps in the right direction the door of opportunity is closing

The agency's warning comes at a critical time in international climate change negotiations, as governments prepare for the annual UN climate summit in Durban, South Africa, from November 28.

international agreement whose effect is put in place by 2017, then the door will be closed forever," IEA Chief Economist Fatih Birol warned today. "Growth, prosperity and rising population will inevitably push up energy needs over the coming decades. But we cannot continue to rely on insecure and environmentally unsustainable uses of energy," said IEA Executive Director Maria van der Hoeven. "Governments need to introduce stronger measures to drive investment in efficient and low-carbon technologies," she said.

Nuclear power is no magic solution, argues Pervez Hoodbhoy — it's not safe, or cheap, and it leads to weapons programmes. A string of energy-starved developing countries have looked at nuclear power as the magic solution. No oil, no gas, no coal needed – it's a fuel with zero air pollution or carbon dioxide emissions. High-tech and prestigious, it was seen as relatively safe. But then Fukushima came along. The disaster's global psychological impact exceeded Chernobyl's, and left a world that's now unsure if nuclear electricity is the answe

Core concerns The fire that followed the failure of emergency generators at the Daiichi nuclear complex raised the terrifying prospect of radiation leaking and spreading. The core of the Unit 1 reactor melted, and spent nuclear fuel, stored under pools of water, sprang to life as cooling pumps stopped. Fukushima's nuclear reactors had been built to withstand the worst, including earthquakes and tsunamis. Sensors successfully shut down the reactors, but when a wall of water 30 feet high crashed over the 20-foot protective concrete walls, electrical power, essential for cooling, was lost. The plume of radiation reached as far as Canada. Closer, it was far worse. Japan knows that swathes of its territory will be contaminated, perhaps uninhabitable, for the rest of the century. In July, for example, beef, vegetables, and ocean fish sold in supermarkets were found to have radioactive caesium in doses several times the safe level. [1]

The Japanese have been careful. In the country of the hibakusha (surviving victims of Hiroshima and Nagasaki), all reactors go through closer scrutiny than anywhere else. But this clearly wasn't enough. Other highly developed countries — Canada, Russia, UK, and US — have also seen serious reactor accidents. What does this mean for a typical developing country? There, radiation dangers and reactor safety have yet to enter public debate. Regulatory mechanisms are strictly controlled by the authorities, citing national security reasons. And individuals or nongovernmental organisations are forbidden from monitoring radiation levels near any nuclear facility. Poor and powerless village communities in India and Pakistan, that have suffered health effects from uranium and thorium mining, have been forced to withdraw their court cases.

The impacts on the ocean of releases of radionuclides from the Fukushima Dai-ichi nuclear power plants remain unclear. However, information has been made public regarding the concentrations of radioactive isotopes of iodine and cesium in ocean water near the discharge point. These data allow us to draw some basic conclusions about the relative levels of radionuclides released which can be compared to prior ocean studies and be used to address dose consequences as discussed by Garnier-Laplace et al. in this journal.(1) The data show peak ocean discharges in early April, one month after the earthquake and a factor of 1000 decrease in the month following. Interestingly, the concentrations through the end of July remain higher than expected implying continued releases from the reactors or other contaminated sources, such as groundwater or coastal sediments. By July, levels of 137Cs are still more than 10 000 times higher than levels measured in 2010 in the coastal waters off Japan. Although some radionuclides are significantly elevated, dose calculations suggest minimal impact on marine biota or humans due to direct exposure in surrounding ocean waters, though considerations for biological uptake and consumption of seafood are discussed and further study is warranted.

there was no large explosive release of core reactor material, so most of the isotopes reported to have spread thus far via atmospheric fallout are primarily the radioactive gases plus fission products such as cesium, which are volatilized at the high temperatures in the reactor core, or during explosions and fires. However, some nonvolatile activation products and fuel rod materials may have been released when the corrosive brines and acidic waters used to cool the reactors interacted with the ruptured fuel rods, carrying radioactive materials into the ground and ocean. The full magnitude of the release has not been well documented, nor is there data on many of the possible isotopes released, but we do have significant information on the concentration of several isotopes of Cs and I in the ocean near the release point which have been publically available since shortly after the accident started.

We present a comparison of selected data made publicly available from a Japanese company and agencies and compare these to prior published radionuclide concentrations in the oceans. The primary sources included TEPCO (Tokyo Electric Power Company), which reported data in regular press releases(3) and are compiled here (Supporting Information Table S1). These TEPCO data were obtained by initially sampling 500 mL surface ocean water from shore and direct counting on high-purity germanium gamma detectors for 15 min at laboratories at the Fukushima Dai-ni NPPs. They reported initially results for 131I (t1/2 = 8.02 days), 134Cs (t1/2 = 2.065 years) and 137Cs (t1/2 = 30.07 years). Data from MEXT (Ministry of Education, Culture, Sports, Science and Technology—Japan) were also released on a public Web site(4) and are based on similar direct counting methods. In general MEXT data were obtained by sampling 2000 mL seawater and direct counting on high-purity germanium gamma detectors for 1 h in a 2 L Marinelli beaker at laboratories in the Japan Atomic Energy Agency. The detection limit of 137Cs measurements are about 20 000 Bq m–3 for TEPCO data and 10 000 Bq m–3 for MEXT data, respectively. These measurements were conducted based on a guideline described by MEXT.(5) Both sources are considered reliable given the common activity ratios and prior studies and expertise evident by several Japanese groups involved in making these measurements. The purpose of these early monitoring activities was out of concern for immediate health effects, and thus were often reported relative to statutory limits adopted by Japanese authorities, and thus not in concentration units (reported as scaling factors above “normal”). Here we convert values from both sources to radionuclide activity units common to prior ocean studies of fallout in the ocean (Bq m–3) for ease of comparison to previously published data.

Federal regulators have been working closely with the nuclear power industry to keep the nation's aging reactors operating within safety standards by repeatedly weakening standards or simply failing to enforce them, an investigation by The Associated Press has found.Officials at the U.S. Nuclear Regulatory Commission regularly have decided original regulations were too strict, arguing that safety margins could be eased without peril, according to records and interviews.The result? Rising fears that these accommodations are undermining safety -- and inching the reactors closer to an accident that could harm the public and jeopardize nuclear power's future.

Examples abound. When valves leaked, more leakage was allowed -- up to 20 times the original limit. When cracking caused radioactive leaks in steam generator tubing, an easier test was devised so plants could meet standards.Failed cables. Busted seals. Broken nozzles, clogged screens, cracked concrete, dented containers, corroded metals and rusty underground pipes and thousands of other problems linked to aging were uncovered in AP's yearlong investigation. And many of them could escalate dangers during an accident.

Despite the problems, not a single official body in government or industry has studied the overall frequency and potential impact on safety of such breakdowns in recent years, even as the NRC has extended dozens of reactor licenses.Industry and government officials defend their actions and insist no chances are being taken. But the AP investigation found that with billions of dollars and 19 percent of America's electricity supply at stake, a cozy relationship prevails between industry and the NRC.Records show a recurring pattern: Reactor parts or systems fall out of compliance. Studies are conducted by industry and government, and all agree existing standards are "unnecessarily conservative."

It looks like the survey meter on the robot (no info on whether it was Packbot or Quince) also went overscale.From Jiji Tsushin (10:47PM JST 8/2/2011):

TEPCO announced on August 2 that the radiation level in the air conditioning room on the 2nd floor of the reactor building of Reactor 1 was over 5 sieverts/hr (or 5,000 millisieverts/hr). It is the highest indoor radiation ever recorded at the plant, higher than 4 sieverts/hr recorded also in the Reactor 1 reactor building on June 3. TEPCO closed off the room.

The vent duct that releases pressure inside the Containment vessel and the emergency gas processing pipe meet inside the room, which is upstream from the main exhaust stack where over 10 sieverts/hr radiation was measured on August 1. According to TEPCO, it is possible that the high concentration of radioactive materials got stuck inside the pipes when the venting was done on the next day after the March 11 earthquake.According to Yomiuri, 10 sieverts/hr radiation would be emitted from 2 grams of radioactive cesium.

Before the Fukushima accident brought to light the parlous state of the Japanese nuclear industry, for years temporary workers have jumped in and out of remunerative short-term jobs at the power plants ignoring the risk of their profession. Takeshi Kawakami (川上武志) was one of the so-called ‘nuclear gypsies’ and just like many other colleagues of his, for about 30 years he made a livelihood working at the different nuclear plants of the country for short periods. For years he earned money helping repair or replace malfunctioning parts of nuclear reactors and carrying out dangerous operations, with a high-risk of radiation exposure.

In his blog, Kawakami denounced the corruption and collusion between the government and the nuclear industry, focusing his coverage on the Hamaoka nuclear power plant. This power plant was recently shut down at the request of the Japanese government for remedial work after it was deemed dangerous to continue operating in light of its position on one of the major seismic faults lines in the Japanese archipelago. In the post partly translated here, he tells of his experiences as a temporary worker when he worked for the first time inside a steam generator at the Genkai nuclear power plant in southern Japan.

The following post was originally published on December 26th, 2010 and translated with the author's consent:

A ‘smoking gun’ article is one that reveals a direct connection between a fossil fuel or alternative energy system promoter and a strongly antinuclear attitude. One of my guiding theories about energy is that a great deal of the discussion about safety, cost, and waste disposal is really a cover for a normal business activity of competing for market share.

This weekend, I came across a site called Culture Change that provides some strong support for my theory about the real source of strength for the antinuclear industry. According to the information at the bottom of the home page, Culture Change was founded by Sustainable Energy Institute (formerly Fossil Fuels Policy Action), a nonprofit organization.Jan Lundberg, who has led the organization and its predecessor organizations since 1988, grew up in a wealthy family with a father who was a popular and respected petroleum industry analyst.

As Oil Guru, Dan [Lundberg, my father] earned a regular Nightly Business Report commentary spot on the Public Broadcasting System television network in the early and mid-1980s. I helped edit or proof-read just about every one of those commentaries, and we delighted in the occasional opportunity to attack gasohol and ethanol for causing “agricultural strip mining” (as we did in the Lundberg Letter).