And Here, You Thought Fukushima Had Ended, Silly You! – Energy News

Report: Massive radiation leak at Fukushima plant — Extremely high levels being detected outside reactor — Officials can’t explain why — Expert warns of global threat: “It’s a disaster of unseen proportions” (VIDEO)
Published: February 6th, 2018 at 7:23 am ET
By ENENews

The Independent, Feb 2, 2018 (emphasis added): Fukushima nuclear disaster: Lethal levels of radiation detected in leak… Expert warns of ‘global’ consequences unless the plant is treated properly… [Tepco] found eight sieverts per hour of radiation, while 42 [sieverts] were also detected outside its foundations… It came as Tepco said the problem of contaminated water pooled around the plants three reactors that is seeping into the ground has caused a major headache in its efforts to decommission the plant… Mycle Schneider, an independent energy consultant and lead author of the World Nuclear Industry Status Report, said that Tepco “hasn’t a clue what it is doing” in its job to decommission the plant. He added that the contaminated water that is leaking at the site could end up in the ocean if the ongoing treatment project fails and cause a “global” disaster, he told The Independent… “I find it symptomatic of the past seven years, in that they don’t know what they’re doing, Tepco, these energy companies haven’t a clue what they’re doing, so to me it’s been going wrong from the beginning. It’s a disaster of unseen proportions.” Mr Schneider added that the radiation leaks coupled with the waste from the plant stored in an “inappropriate” way in tanks could have global consequences… “This can get problematic anytime, if it contaminates the ocean there is no local contamination, the ocean is global, so anything that goes into the ocean goes to everyone.” He added: “It needs to be clear that this problem is not gone, this is not just a local problem. It’s a very major thing.”

NHK, Feb 1, 2018: High radiation detected at Fukushima plant… A remote-controlled inspection of the Unit 2 reactor containment vessel last month detected a maximum of 8 sieverts per hour of radiation… [Tepco] said the radiation reading was taken near what appeared to be fuel debris, the term used to describe a mixture of molten fuel and broken interior parts… radiation levels remain so high that they present a major challenge to decommissioning work. During the probe, 42 sieverts per hour of radiation was also detected outside the foundations of the reactor. But officials said they have doubts about the accuracy of the reading because a cover had not been removed from the measuring instrument at the time. They added that they don’t know why radiation levels were lower near the suspected fuel debris than around the foundations. They gave a number of possible reasons, such as that cooling water may have washed radioactive materials off the debris…

RT, Feb 2, 2018: An inspection of the Fukushima nuclear plant has detected extremely high amounts of radiation, says operator TEPCO… Experts can’t explain why radiation levels in fuel debris were lower than outside the reactor’s foundations…

Sputnik, Feb 4, 2018: ‘Global Consequences’ of Lethal Radiation Leak at Destroyed Japan Nuclear Plant… While 8 Sv/h is deadly, outside of Fukushima’s Reactor Number 2 foundations… a much higher level of 42 Sv/h was detected. A strange occurrence, and experts are still arguing what caused the discrepancy. One possible explanation is that cooling water washed radioactive material off debris, taking it somewhere else. But here’s a truly terrifying catch: according to the report, Tepco highly doubts the new readings, because, as was discovered later, a cover was not removed from the robot-mounted measurement device at the time of the inspection, NHK World reports… While that radiation dosimeter cover negligence prevents precise calculations, the actual picture inside Unit 2 is thought to be much worse…

Watch NHK’s broadcast here:

Published: February 6th, 2018 at 7:23 am ET

Fukushima is not over, not by a long shot. Every day since March 11, 2011, Japan has allowed the radioactive water to run into the ocean. Japan has threatened their doctors about telling the truth about the illnesses that have plagued the Japanese people since the meltdown, and have arrested and threatened numerous reporters for reporting the truth.
Fukushima has global consequences because all of our oceans connect to one another. Japan is supposed to be readying to release 100 million tons of radioactive water into the Pacific Ocean.

Fukushima is Now Officially the Worst Nuclear Power Disaster in History

Move Over Chernobyl, Fukushima is Now Officially the Worst Nuclear Power Disaster in History


The radiation dispersed into the environment by the three reactor meltdowns at Fukushima-Daiichi in Japan has exceeded that of the April 26, 1986 Chernobyl catastrophe, so we may stop calling it the “second worst” nuclear power disaster in history. Total atmospheric releases from Fukushima are estimated to be between 5.6 and 8.1 times that of Chernobyl, according to the 2013 World Nuclear Industry Status Report. Professor Komei Hosokawa, who wrote the report’s Fukushima section, told London’s Channel 4 News then, “Almost every day new things happen, and there is no sign that they will control the situation in the next few months or years.”

Tokyo Electric Power Co. has estimated that about 900 peta-becquerels have spewed from Fukushima, and the updated 2016 TORCH Report estimates that Chernobyl dispersed 110 peta-becquerels.[1](A Becquerel is one atomic disintegration per second. The “peta-becquerel” is a quadrillion, or a thousand trillion Becquerels.)

Chernobyl’s reactor No. 4 in Ukraine suffered several explosions, blew apart and burned for 40 days, sending clouds of radioactive materials high into the atmosphere, and spreading fallout across the whole of the Northern Hemisphere — depositing cesium-137 in Minnesota’s milk.[2]

The likelihood of similar or worse reactor disasters was estimated by James Asselstine of the Nuclear Regulatory Commission (NRC), who testified to Congress in 1986: “We can expect to see a core meltdown accident within the next 20 years, and it … could result in off-site releases of radiation … as large as or larger than the releases … at Chernobyl.[3] Fukushima-Daiichi came 25 years later.

Contamination of soil, vegetation and water is so widespread in Japan that evacuating all the at-risk populations could collapse the economy, much as Chernobyl did to the former Soviet Union. For this reason, the Japanese government standard for decontaminating soil there is far less stringent than the standard used in Ukraine after Chernobyl.

Fukushima’s Cesium-137 Release Tops Chernobyl’s

The Korea Atomic Energy Research (KAER) Institute outside of Seoul reported in July 2014 that Fukushima-Daiichi’s three reactor meltdowns may have emitted two to four times as much cesium-137 as the reactor catastrophe at Chernobyl.[4]

To determine its estimate of the cesium-137 that was released into the environment from Fukushima, the Cesium-137 release fraction (4% to the atmosphere, 16% to the ocean) was multiplied by the cesium-137 inventory in the uranium fuel inside the three melted reactors (760 to 820 quadrillion Becquerel, or Bq), with these results:

Ocean release of cesium-137 from Fukushima (the worst ever recorded): 121.6 to 131.2 quadrillion Becquerel (16% x 760 to 820 quadrillion Bq). Atmospheric release of Cesium-137 from Fukushima: 30.4 to 32.8 quadrillion Becquerel (4% x 760 to 820 quadrillion Bq).

Total release of Cesium-137 to the environment from Fukushima: 152 to 164 quadrillion Becquerel. Total release of Cesium-137 into the environment from Chernobyl: between 70 and 110 quadrillion Bq.

The Fukushima-Daiichi reactors’ estimated inventory of 760 to 820 quadrillion Bq (petabecquerels) of Cesium-137 used by the KAER Institute is significantly lower than the US Department of Energy’s estimate of 1,300 quadrillion Bq. It is possible the Korean institute’s estimates of radioactive releases are low.

In Chernobyl, 30 years after its explosions and fire, what the Wall St. Journal last year called “the $2.45 billion shelter implementation plan” was finally completed in November 2016. A huge metal cover was moved into place over the wreckage of the reactor and its crumbling, hastily erected cement tomb. The giant new cover is 350 feet high, and engineers say it should last 100 years — far short of the 250,000-year radiation hazard underneath.

The first cover was going to work for a century too, but by 1996 was riddled with cracks and in danger of collapsing. Designers went to work then engineering a cover-for-the-cover, and after 20 years of work, the smoking radioactive waste monstrosity of Chernobyl has a new “tin chapeau.” But with extreme weather, tornadoes, earth tremors, corrosion and radiation-induced embrittlement it could need replacing about 2,500 times.

John Laforge’s field guide to the new generation of nuclear weapons is featured in the March/April 2018 issue of CounterPunch magazine.


[1]Duluth News-Tribune & Herald, “Slight rise in radioactivity found again in state milk,” May 22, 1986; St. Paul Pioneer Press & Dispatch, “Radiation kills Chernobyl firemen,” May 17, 1986; Minneapolis StarTribune, “Low radiation dose found in area milk,” May 17, 1986.

[2]Ian Fairlie, “TORCH-2016: An independent scientific evaluation of the health-related effects of the Chernobyl nuclear disaster,” March 2016 (

[3]James K. Asselstine, Commissioner, US Nuclear Regulatory Commission, Testimony in Nuclear Reactor Safety: Hearings before the Subcommittee on Energy Conservation and Power of the Committee on Energy and Commerce, House of Representatives, May 22 and July 16, 1986, Serial No. 99-177, Washington, DC: Government Printing Office, 1987.

[4] Progress in Nuclear Energy, Vol. 74, July 2014, pp. 61-70;, Oct. 20, 2014.

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A Chinese/French Nuclear Power Plant? And the Parts are Made in China? Sounds like harmony to me…

Cracks found in Taishan nuclear power plant
– Friday, December 15, 2017 – 2 weeks ago No Comments 2,596 Views

One of the key power generation system components of Unit 1 of Taishan nuclear power plant cracked during an earlier pre-production test, according to a report by FactWire News Agency.

“A ‘boiler’ in Unit 1 appeared to have cracked during functional testing and must be replaced, according to a nuclear plant employee,” the FactWire News Agency report reads.

“He also told FactWire undercover reporters when they visited the site last month that representatives from Harbin Electric, the Chinese manufacturer of the ‘boiler’, came to the plant for a week in late October to discuss with the plant operator, Taishan Nuclear Power Joint Venture, a plan to replace the faulty ‘boiler’,” according to FactWire.

Taishan Nuclear Power plant is being made by the joint venture between the China General Nuclear Power Corporation (CGN), which is a China state-owned company, and the French electricity company Électricité de France.

CGN, in a reply to Fact Wire News Agency, said “the Unit 1 of of Taishan nuclear power plant has already completed the cold functional and thermal functional tests. The test results were in line with design requirements. The deaerator is a common equipment of a conventional island thermal system, […] it does not belong to the nuclear safety related system.”

“China General Nuclear Power Corporation (CGN), the developer of the Taishan nuclear project, said on Tuesday afternoon that there were ‘partial defects’ in the welding of the deaerator in question, but insisted ‘replacement work was near completion’,” FactWire News Agency writes.

CGN’s official document says that the deaerator of Taishan Unit 1 is 46.6 meters long and 4.76 meters in diameter.

“Last week, a Dongfang Electric engineer also confirmed to FactWire that the deaerator was supplied by Harbin Electric and the welding on the deaerator was ‘problematic’,” the FactWire News Agency report reads.

Dongfang Electric is also co-responsible for manufacturing components for the Taishan nuclear power Unit 1.

The power plant is located 67 kilometers from Macau and 130 kilometers from Hong Kong, and is still under construction.

Safety concerns were raised last year after components of the nuclear plant were discovered to have been made in mainland China, not in France as previously thought.

According to FactWire, China had been hoping to launch Unit 1 this year, whereas French engineers who were sent to Taishan for the project, told FactWire that it could only be launched in 2018 at the earliest.

“The National Nuclear Safety Administration of China stipulates that a nuclear plant must seek permission from the agency before loading fuel assemblies to conduct tests. But public records show that Taishan Unit 1 has yet to have received such a permit,” FactWire reported.

Last year, members of the civil society had asked the MSAR government to clarify both issues related to the emergency plan and possible risks posed by the nuclear plant to Macau’s population. A local delegation visited the nuclear plant to check the safety of the infrastructure.

The head of the Security Forces Coordination Office, Choi Lai Hang, led the local delegation and explained that Macau would not require protective measures, even in the event of a very serious nuclear incident (level 7) at the Taishan nuclear power plant.

Jersey Evening Post, Feb 25, 2017 (emphasis added): Radioactive cloud could be heading our way

Officials warn mysterious radioactive cloud is spreading — Authorities ‘baffled’ over release… “Could indicate leak from nuclear plant” — Particles “very radioactive”
By ENENews, on February 25th, 2017

Published: February 25th, 2017 at 5:01 pm ET
By ENENews

Jersey Evening Post, Feb 25, 2017 (emphasis added): Radioactive cloud could be heading our way — A CLOUD of mysterious radioactive particles floating across Europe… could enter Jersey airspace, Environmental Health have said… scientists have yet to work out where the radiation comes from… Caroline Maffia, assistant director of Environmental Health in Jersey, said the department was aware of the situation but 24-hour-a-day air monitors placed across the Island had not detected anything yet. CAPTION: ‘We are not picking up anything at this moment. We are slightly out of the way of where it seems to be going but depending on wind direction we could detect something here,’ said Ms Maffia.

Wakefield Express, Feb 24, 2017: Mysterious radioactive cloud moves towards UK… The spike has sparked speculation that Russian president Vladimir Putin is testing nuclear weapons… However, the CTBTO (Comprehensive Nuclear-Test-Ban Treaty Organisation) ruled out a nuclear test had recently taken place… It’s possible that the particles could have come from an incident at a nuclear reactor. The compounds may also have also come from an Iodine plant. Iodine-131 has a very short half life of just eight days, making it very radioactive…

Euronews, Feb 23, 2017: Europe baffled by “recent release” of radioactive Iodine-131… France’s IRSN stresses the amounts of radiation detected pose no health threats, but says its “detection is proof of a rather recent release”… Iodine-131, as described by the IRSN, is of anthropogenic origins – meaning an environmental pollutant originating from human activity… The mysterious origin of the radioactive element has baffled authorities, some of whom claim its presence could indicate either a secret Russian nuclear missile test launch, or a leak from a nuclear power plant. Iodine-131 has historical links to United States and Soviet nuclear tests… It has also been found among the radioactive contamination following Japan’s Fukushima reactor meltdown… The element is also commonly used in medicine… leading to speculation of a yet unidentified, or reported, leak at a pharmaceutical plant.

See also: ‘Mystery’: Radiation spikes being detected in many countries — US military secretly deploys ‘nuclear sniffer’ aircraft — Radioactivity levels quadrupled — Officials: Iodine-131 is “proof of rather recent release… the origin of which is still unknown”

Gun control heartburn: Radioactive boars are amok in Fukushima



The “most adaptable animals that you’ll ever find” are running rampant across parts of rural Japan in the wake of the 2011 nuclear catastrophe and strict gun laws aren’t helping.

The Fukushima Daiichi nuclear disaster, in which a boiling water reactor nuclear power plant largely went Chernobyl after a tsunami knocked it offline has left Japan with a host of problems to include radiation-induced health impacts, some 200,000 displaced locals and possible exposure of groundwater to melted down nuclear fuel for decades to come.

Oh yeah, and the wild hogs.

According to an article in The Washington Post last April, the boar population, lacking natural predators is booming. Worse, thousands of the animals roam an area where highly radioactive caesium-137, which has a half-life of 30 years, has been confirmed.

Most agree that the best way to eradicate the rapid population of would-be Orcs is through hunting, but in gun control-friendly Japan, that is easier said than done.

“Something that complicates wild boar management in Japan is the exceptionally restrictive ownership, use, and access to firearms,” says Dr. Mark Smith, a forestry and wildlife professor at Auburn University, told Outside online. “This includes not only the general populace, but also with researchers, wildlife biologists, and natural resource managers.”

According to the Australian-based Small Arms Survey, the rate of private gun ownership in Japan is 0.6 per 100 people with only 77 handguns in circulation and just 0.8 percent of Japanese households containing one or more legal guns, most often shotguns.

Smith went to Japan to study the problem in 2013.

“Although [recreational] hunting does occur in Japan, it is very limited,” says Smith, “and hunter numbers are declining by the year, so there are fewer and fewer hunters out there harvesting wild boar.”

Plus there is the problem with the meat. In short, there is no good way to make caesium-137 infused pork a balanced part of your complete meal without the diner glowing in the dark, no matter how much BBQ sauce you use.

In Japan, they have to incinerate the carcasses (at 1,771 degrees Fahrenheit) then obliterate the fragments left over with hammers and box them up. Carefully.

Furthermore, the animals are very smart.

“They are the most adaptable animals that you’ll ever find: we call them the ‘opportunistic omnivore,’” says Smith.

ALERT: Emergency at US nuclear plant after “massive” fire and multiple explosions — “All of a sudden we heard this loud boom and the whole ground started shaking” — “Intense Flames… Heavy Black Smoke… Chaos” — 100s of fire personnel called in — “We ask that the public stay away from the area” (VIDEOS)

U.S. Nuclear Regulatory Commission, Mar 7, 2016 (emphasis added): [Oconee Nuclear Station, SC] EMERGENCY DECLARATION DUE TO FIRE/EXPLOSION IN THE MAIN TRANSFORMER… At 1520 EST, the licensee declared a Notification of Unusual Event… personnel were applying additional foam to prevent a re-flash… Offsite assistance was requested with three local fire departments… At 1658 EST, the licensee declared an Alert [when] the fire damaged an overhead power line that supplies emergency power to all three units at Oconee.

WHNS transcript, Mar 7, 2016: People fishing on the lake… reported hearing a loud boom and seeing black smoke, and then steam… Witnesses say there were two explosions… This afternoon [was] chaos… Fire crews [were] all on scene at the Oconee nuclear plant after a massive electrical fire… Fire Official: “It’s also in very close proximity to the buildings… I know they worked on… preventing the transformer from impinging on any of the other structures”… People in the area were very concerned when they saw heavy black smokeWitness: “All of a sudden we heard this loud boom and the whole ground started shaking.”… It’s a scary situation… [An official] said it was a very rare problem.

Loudspeaker at Oconee Nuclear Station: “Attention all site personnel… This is an emergency message… An unusual event has been declared for Unit 1… TSC – OSC [Technical Support Center – Onsite Operational Support Center] activation is necessary and the TSC – OSC has not yet been activated. Activate the TSC – OSC — I repeat, activate the TSC – OSC.”

WYFF, Mar 7, 2016: Scott Batson, site vice president [said] the intense flames and smoke came from oil burning… Batson said because a cable burned in the fire fell and caused other equipment to be affected, which led to the “unusual event” to be upgraded to an alert.

FOX Carolina, Mar 7, 2016: Hundreds of fire personnel sprang into action after a fire started at the Oconee Nuclear Plant.

WSPA transcript, Mar 7, 2016: Nearby Resident:I freaked out – you see a fire, smoke at a a power plant”… Fire Chief: “When you’re responding to a call, and you can see it when you leave the station like that, it really kind of gets your adrenaline going.”

Oconee County Emergency Management, Mar 7, 2016: “We ask that the public stay away from the area as emergency personnel and Duke Energy staff work.”

Greenville News, Mar 6, 2016: The alert was necessary because the problem could have affected operations of the plant itself… The transformer is 25 to 30 feet from the turbine building that serves Unit 1 and about 100 yards from the reactor building

WLOS, Mar 6, 2016: A transformer burst into flames at an Upstate nuclear power station…. Officials did ask the public to stay away from the area… The fire chief also said crews are continuing to work with on-site personnel to ensure… there is no further extension.

From last month: ALERT: Fire/explosion at North Carolina nuclear plant (VIDEO)


I check the news every day for radiation news, nuke problems, etc.  How the hell can anyone protect themselves, when it takes a week to show up in the news?

ENENews: “Highly radioactive ‘glass’ rained on Tokyo — Fukushima nuclear fuel with 500 Trillion Bq/kg found “

Highly radioactive ‘glass’ rained on Tokyo — Fukushima nuclear fuel with 500 Trillion Bq/kg found — “Significant consequences for human health” — Scientists: This changes understanding of disaster… Extreme importance… Our ideas of health implications should change… Do not discuss on social media

Published: June 28th, 2016 at 12:46 pm ET
By ENENews

Public Release from Goldschmidt Conference, Jun 26, 2016 (emphasis added): New research shows that most of the radioactive fallout which landed on downtown Tokyo a few days after the Fukushima accident was concentrated and deposited in non-soluble glass microparticles, as a type of ‘glassy soot’. This meant that most of the radioactive material was not dissolved in rain and running water… The particles also concentrated the radioactive caesium (Cs), meaning that in some cases dose effects of the fallout are still unclear… Japanese geochemists… analysed samples collected from within an area up to 230 km from the FDNPP… [I]t had been anticipated that most of the radioactive fallout would have been flushed from the environment by rainwater. However… most of the radioactive caesium in fact fell to the ground enclosed in glassy microparticles… [T]hese particles… formed during the molten core-concrete interaction inside the primary containment vessel in the Fukushima reactor units 1 and/or 3. Because of the high Cs content in the microparticles, the radioactivity per unit mass was as high as ~4.4×10^11 Bq/g [440,000,000,000,000 Bq/kg]… Analysis from several air filters collected in Tokyo on 15 March 2011 showed that 89% of the total radioactivity was present as a result of these caesium-rich microparticles, rather than the soluble Cs, as had originally been supposed.

Discovery (Seeker), Jun 27, 2016: Fukushima Accident Rained Glass Particles on Tokyo… Most of the radioactive fallout that descended upon downtown Tokyo in the days after the March 2011 accident [was] glass microparticles — essentially, glass-filled soot. As a result, the fallout, which contained concentrated radioactive cesium, wasn’t dissolved by rainfall, and probably lingered in the environment… Japanese scientists thought that most of it would be washed away by rainwater. Instead, analysis… revealed that most of the radioactive cesium in fact fell to the ground enclosed in glassy microparticles.

ANI, Jun 28, 2016: Research indicates Fukushima radioactive fallout may be worse than expected… Most of the radioactive fallout, which landed on downtown Tokyo a few days after the Fukushima accident, was concentrated and deposited in non-soluble glass microparticles, as a type of ‘glassy soot’…

Inverse, Jun 26, 2016: Radioactive “Glassy Soot” Fell Over Tokyo After the Fukushima Meltdown… The findings… show that the radioactive fallout… has been poorly understood. Previously, it was assumed that most of the radiation that fell dissolved in rain. This would mean that it would wash out of the soil and through the environment… These tiny glass particles entered the air and fell as soot on the surrounding region. Because the radioactive molecules are contained in an insoluble medium, they will not wash out of the soil with rainwater to the same extent… Beyond the consequences for the environment, there are significant consequences for human health. Breathing caesium encased in glass particles may have a very different impact from exposure to it as radioactive rain…

Scientists from Fukushima Univ., Japan Atomic Energy Agency, Stanford Univ., etc, June 2016: Cesium-rich micro-particles unveil the explosive events in the Fukushima Daiichi Nuclear Power Plant — Cesium-rich micro-particles (CsMPs) retain novel information on the molten core-concrete interaction… CsMPs specimens were discovered… in atmospheric particulates collected at Suginami, Tokyo… [Note: “The author has requested that this abstract is not discussed on social media.”]

Dr Satoshi Utsunomiya, Kyushu Univ.: “This work changes some of our assumptions about the Fukushima fallout… This may mean that our ideas of the health implications should be modified“.

Prof. Bernd Grambow, Director of SUBATECH laboratory, France: “[The observations] presented here are extremely important. They may change our understanding of the mechanism of long range atmospheric mass transfer of radioactive caesium from the reactor accident at Fukushima to Tokyo, but they may also change the way we assess inhalation doses from the caesium microparticles inhaled by humans. Indeed, biological half- lives of insoluble caesium particles might be much larger than that of soluble caesium“.

See also: Nuclear fuel found 15 miles from Tokyo — Fukushima uranium in ‘glassy’ spheres flew over 170 km (PHOTOS)