Geen evolutie en ecolutie zonder revolutie!

Albert Einstein:

Twee dingen zijn oneindig: het universum en de menselijke domheid. Maar van het universum ben ik niet zeker.
Posts tonen met het label stralingsziekten. Alle posts tonen
Posts tonen met het label stralingsziekten. Alle posts tonen

donderdag 25 februari 2021

Mars Rover rijdt op plutonium, iets waar de media geen aandacht aan besteden

Te zot voor woorden: CounterPunch (CP) komt met een artikel waarin bekend wordt gemaakt dat de Mars Perseverance Rover, het nieuwste karretje op Mars, plutonium heeft als energievoorziening...... De NASA stelt dat de kans dat het fout gaat met deze energievoorziening, de meest dodelijke van alle radioactieve stoffen, als een kans is van 1 op 960....... Gezien kansberekeningen voor rampen geeft dit cijfer aan dat de kans groot is dat het misgaat en dan moet vooral niet vergeten worden dat de NASA er het grootste belang bij heeft deze kansberekening naar het publiek toe zo hoog mogelijk te houden (om onrust te voorkomen), anders gezegd: de kans dat er iet mis kan gaan moet nog een heel stuk onder dat getal van 960 worden gezocht......

Karl Grossman, de schrijver van het hieronder opgenomen artikel stelt dat de gokkers in Las Vegas heel blij zouden zijn, als hun kans om iets te winnen 1 op 960 zou zijn. Bij loterijen is de kans berekening op winst een oneindig aantal groter dan 1 op 960 en toch zijn er mensen die deze winnen aldus Grossman, echter dat is m.i. een manke vergelijking, immers de loterijen zijn er juist op gericht dat de hoofdprijs wordt gewonnen, terwijl de NASA het karretje niet naar Mars heeft gestuurd om te verongelukken tijdens het transport of tijdens werkzaamheden op die planeet.....

Naast het feit dat het in feite schandalig is dat we vanaf de aarde levensgevaarlijke zaken naar andere planeten transporteren of het heelal in sturen, moet er juist rekening worden gehouden met wat er mis kan gaan op aarde, zo kan een lancering uitlopen op een catastrofe als de raket ontploft na lancering....... Als dit misgaat zonder radioactieve stoffen aan boord is e.e.a. nog te overzien, echter zou de raket zijn ontploft die de huidige Mars Rover vervoerde, was de zaak wel bijzonder gevaarlijk en ingewikkeld geworden, ga maar na wat plutonium alleen al aanricht als een mens daarmee onbeschermd in aanraking komt....... Het voorgaande geldt uiteraard ook voor de natuur waar dergelijke levensgevaarlijke radioactieve stoffen terecht zouden zijn gekomen......

In het artikel van CP worden een paar gevallen in herinnering gebracht waar het inderdaad fout ging met door kernenergie aangedreven satellieten enz. 

Het is dan ook zaak dat men stopt met dergelijke gevaarlijke experimenten, als men niet anders kan dan atoomenergie inzetten voor een ruimteproject, zou daar ten allen tijde een verbod over uit moeten worden gesproken, zoek maar naar alternatieven als zonne-energie en als die niet toereikend zijn, wacht dan maar een paar jaar tot de technologie zover is ontwikkeld dat men zonder kernenergie hetzelfde kan bereiken!!!

February 23, 2021

Plutonium in Space: What Are the Odds of a Catastrophe?

by Karl Grossman

Photograph Source: NASA – Public Domain

With all the media hoopla last week about the Perseverance rover, going almost totally unreported was that its energy source is plutonium—considered the most lethal of all radioactive substances—and nowhere in media that NASA projected 1-in-960 odds of the plutonium being released in an accident on the mission.

A ‘1-in-960 chance’ of a deadly plutonium release is a real concern—gamblers in Las Vegas would be happy with those odds,” says Bruce Gagnon, coordinator of the Global Network Against Weapons and Nuclear Power in Space (GNAWNPS).

Indeed, big-money lotteries have odds far higher than 1-in-960 and routinely people win those lotteries.

Further, NASA’s Supplementary Environmental Impact Statement (SEIS) for the $3.7 billion mission acknowledges that an “alternative” power source for Perseverance could have been solar energy. Solar energy using photovoltaic panels has been the power source for a succession of Mars rovers.

For an accident releasing plutonium on the Perseverance launch—and 1 in 100 rockets undergo major malfunctions on launch mostly by blowing up—NASA in its SEIS described these impacts for the area around the Cape Kennedy under a heading “Impacts of Radiological Releases on the Environment.”

It states: “In addition to the potential human health consequences of launch accidents that could result in a release of plutonium dioxide, environmental impacts could also include contamination of natural vegetation, wetlands, agricultural land, cultural, archaeological and historic sites, urban areas, inland water, and the ocean, as well was impacts on wildlife.”

It adds: “In addition to the potential direct costs of radiological surveys, monitoring, and potential cleanup following an accident, there are potential secondary societal costs associated with the decontamination and mitigation activities due to launch area accidents. Those costs may include: temporary or longer term relocation of residents; temporary or longer term loss of employment; destruction or quarantine of agricultural products, including citrus crops; land use restrictions; restrictions or bans on commercial fishing; and public health effects and medical care.”

NASA was compelled to make disclosures about the odds of an accident releasing plutonium, alternatives to using nuclear power on the Perseverance and consequences of a plutonium release under the National Environmental Policy Act.

Its SEIS can be viewed online at https://mars.nasa.gov/mars2020/files/mep/Mars2020_Final_EIS.pdf

Meanwhile, the U.S. is now producing large amounts of Plutonium-238, the plutonium isotope used for space missions. The U.S. stopped producing Plutonium-238 in 1988, and it began obtaining it from Russia, in recent years no longer happening. A series of NASA space shots using Plutonium-238 are planned for coming years.

Plutonium-238 is 280 times more radioactive than Plutonium-239, the plutonium isotope used in atomic bombs and as a “trigger” in hydrogen bombs.

There are 10.6 pounds of Plutonium-238 on Perseverance.

We might have dodged a plutonium bullet on the Perseverance mission. The Atlas V rocket carrying it was launched without blowing up. And the rocket didn’t fall back from orbit with Perseverance and its Plutonium-238 disintegrating on re-entry into the Earth’s atmosphere and plutonium dispersed.

But with NASA planning more space missions involving nuclear power including developing nuclear-powered rockets for trips to Mars and launching rockets carrying nuclear reactors for placement on the Moon and Mars, space-based nuclear Russian roulette is at hand.

The acknowledgement that “an accident resulting in the release of plutonium dioxide from the MMRTG [Multi-Mission Radioisotope Thermoelectric Generator] occurs with a probability of 1 in 960” is made repeatedly in the SEIS.

The amount of electricity produced by the MMRTG on Perseverance is miniscule—some 100 watts, similar to a light bulb.

A solar alternative to the use of plutonium on the mission is addressed at the start of the SEIS in a “Description and Comparison of Alternatives” section.

First is “Alternative 1” which proposes that the rover use a plutonium-fueled MMRTG “to continually provide heat and electric power to the rover’s battery so that the rover could operate and conduct scientific work on the planet’s surface.”

That is followed by “Alternative 2” which states: “Under this alternative, NASA would discontinue preparations for the Proposed Action (Alternative 1) and implement a different power system for the Mars rover. The rover would use solar power to operate instead of a MMRTG.”

The worst U.S. accident involving the use of nuclear power in space came in 1964 when the U.S. satellite Transit 5BN-3, powered by a SNAP-9A plutonium-fueled radioisotope thermoelectric generator, failed to achieve orbit and fell from the sky. It broke apart as it burned up in the atmosphere. That accident was long linked to a spike in global lung cancer rates where the plutonium was spread by Dr. John Gofman, an M.D. and Ph. D., a professor of medical physics at the University of California at Berkeley. NASA, after the SNAP-9A (SNAP for Systems Nuclear Auxiliary Power) accident became a pioneer in developing solar photovoltaic power. All U.S. satellites now are energized by solar power, as is the International Space Station.

The worst accident involving nuclear power in space in the Soviet/Russian space program occurred in 1978 when the Cosmos 954 satellite with a nuclear reactor aboard fell from orbit and spread radioactive debris over a 373-mile swath from Great Slave Lake to Baker Lake in Canada. There were 110 pounds of highly-enriched uranium fuel on Cosmos 954.

I first began writing widely about the use of nuclear power in space 35 years ago when I broke the story in The Nation magazine about how the next mission of the ill-fated shuttle Challenger was to loft the Ulysses space probe fueled with 24.2 pounds of Plutonium-238 (to conduct orbits around the sun).

If the Challenger had blown up on that mission, scheduled for May 1986, instead of blowing up on January 28, 1986, and the plutonium released, it would not have been six astronauts and teacher-in-space Chris McAuliffe dying but many more people.

Pursuing the issue, I authored the books The Wrong Stuff: The Space Program’s Nuclear Threat to Our Planet and Weapons in Space, and wrote and presented the TV documentary Nukes In Space: The Nuclearization and Weaponization of the Heavens and other TV programs. And I have written many hundreds of articles.

The absence in media reporting on the Perseverance Mars rover of the dangers involving the nuclear material on it and the chances of that plutonium being dispersed is not new.

In The Wrong Stuff I include a section on “The Space Con Job.”

I quote extensively from an article published in the Columbia Journalism Review after the Challenger accident by William Boot, its former editor, titled “NASA and the Spellbound Press.” He wrote: “Dazzled by the space agency’s image of technological brilliance, space reporters spared NASA thorough scrutiny that might have improved chances of averting tragedy—through hard-hitting investigations drawing Congress’s wandering attention to the issue of shuttle safety.”

He found “gullibility” in the press. “The press,” he wrote, has been “infatuated by man-in-space adventures.” He related that “U.S. journalists have long had a love affair with the space program.” He said “many space reporters appeared to regard themselves as participants, along with NASA, in a great cosmic quest. Transcripts of NASA press confernces reveal that it was not unusual for reporters to use the first person plural. (‘When are we going to launch?)”

Also, in The Wrong Stuff I wrote about an address on “Science and the Media” by the New York Times space reporter John Noble Wilford in 1990 at Brookhaven National Laboratory. In it he declared: “I am particularly intrigued by science and scientists… My favorite subject is planetary science.” After his talk, I interviewed him and he acknowledged that “there’s still a lot of space reporters who are groupies.” Still, he went on, “some of the things that NASA does are so great, so marvelous, so it’s easy to forget to be critical.”

On NBC’s Today show, the attitude of the reporters was as celebratory on the morning of the landing as the label of the video aired showing “Jubilation at NASA Control.” Never was there a mention of nuclear power or plutonium or the acknowledged risks of an accident and dispersal of plutonium.

I am disheartened that the media shows little inclination to mention the words ‘plutonium’ or ‘probabilities of accidental release’ in their so-called reporting of the Mars rover arrival. You have to question who they work for,” says Bruce Gagnon of the Global Network.

We daily hear the excited anticipation of the nuclear industry as stories reveal the growing plans for hosts of launches of nuclear devices—more rovers on Mars, mining colonies on the moon, even nuclear reactors to power rockets bound for Mars. The nuclear industry is rolling the dice while people on Earth have their fingers crossed in the hope technology does not fail—as it often does,” said Gagnon, of the Maine-based international organization that since its formation in 1992 has been challenging the use of nuclear power and the deployment of weapons in space. The U.S. has favored nuclear power as an energy source for space-based weapons.

Further, said Gagnon, “the media, while ignoring the Mars rover plutonium story, is also guilty of not reporting about the years of toxic contamination at the Department of Energy nuclear labs where these space nuclear devices are produced. The Idaho Nuclear Laboratory and Los Alamos Nuclear lab in New Mexico have long track records of worker and environmental contamination during this dirty space nuke fabrication process.”

Declared Gagnon: “The public will need to do more than cross our fingers in hopes that nothing goes wrong. We need to speak out loudly so Congress, NASA and the DoE hear that we do not support the nuclearization of the heavens. Go solar or better yet—stay home and use our tax dollars to take care of the legions of people without jobs, health care, food, or heat.  Mars can wait.”

Karl Grossman, professor of journalism at State University of New York/College at Old Westbury, and is the author of the book, The Wrong Stuff: The Space’s Program’s Nuclear Threat to Our Planet, and the Beyond Nuclear handbook, The U.S. Space Force and the dangers of nuclear power and nuclear war in space. Grossman is an associate of the media watch group Fairness and Accuracy in Reporting (FAIR). He is a contributor to Hopeless: Barack Obama and the Politics of Illusion.

Het label USSF direct onder dit bericht staat voor Unites States Space Force.

donderdag 12 november 2020

Fukushima: lozen van 1,2 miljoen ton radioactief besmet water in oceaan geen probleem voor Japanse regering en IAEA.......

De Japanse regering is van zins om TEPCO, de eigenaar van de Fukushima nuleaire rampcentrale, toestemming te geven om 1,2 miljoen ton met radioactief besmet water in zee te lozen.....

Sinds de ramp in 2011 stroomt er dagelijks al met radioactief besmet water in zee, echter daarnaast heeft TEPCO in meer dan 1.000 tanks radioactief besmet water opgevangen en zit aan de top van de capaciteit, ofwel men 'kan niet nog meer van dat water opslaan; dat kan uiteraard wel maar de kosten lopen de 'spuigaten uit.....'

Grossie, de directeur van de IAEA, het Internationaal Atoomenergieagentschap, bezocht de centrale dit jaar en verklaarde dat het dumpen van dit radioactief besmet water behoord tot 'de gewone gang van zaken......' De IAEA,. NB een agentschap van de Verenigde Naties, is dan ook niets meer dan een lobbyorgaan voor nucleaire energie, hoe gevaarlijk en duur deze vorm van energieopwekking ook is...... Meer dan schandalig!!

Volgens TEPCO is dit water gezuiverd van radioactieve isotopen en blijft alleen tritium achter in het water, een radioactieve stof die de huid niet kan penetreren, maar pas gevaarlijk wordt bij inademing en inname bijvoorbeeld door het eten van met tritium besmette vis......

Schunnig genoeg weet TEPCO dat de waterzuiveringsinstallatie die de radioactieve isotopen uit het water moet halen, grote problemen heeft....... Greenpeace International stelt dat TEPCO de laatste jaren heeft toegegeven dat deze problemen bestaan en dat in meer dan 80% van de tanks de radioactieve isotopen die 'weggezuiverd' zouden zijn, nog steeds in het water zitten..... Volgens Greenpeace bevatten de bewuste tanks verder ondermeer strontium -90, een zeer kankerverwekkend en dodelijke stof.......

Nogmaals, dit is een teken dat het zeer onverantwoorde afbraakkabinet Rutte 3 knettergek is dat men alleen al het plan heeft nieuwe kerncentrales te bouwen, des te meer daar ons grondgebied maar zeer klein is en een kernramp in zo'n centrale zal een groot gebied onbewoonbaar maken..... Hoe meer dan achterlijk moet je zijn om te pleiten voor meer kerncentrales in ons kleine land, daarnaast zijn de kosten enorm, jaarlijks moet er geld aan subsidie bij en geen verzekeringsmaatschappij wil een kerncentrale verzekeren en dat is bepaald niet voor niets......

Lees het volgende zeer verontrustende artikel en vergeet niet dat radioactiviteit van de Fukushima centrale zelfs wordt gevonden voor de kust van Californië......

Het volgende artikel komt van CounterPunch en werd geschreven door Robert Hunziker:

November 1, 2020

Dumping Fukushima’s Water into the Ocean

What could possibly go wrong?

by Robert Hunziker

Photograph Source: IAEA Imagebank – CC BY 2.0

For nearly a decade the crippled Fukushima Daiichi Nuclear Power Plant has been streaming radioactive water into the Pacific Ocean. As it happens, TEPCO (Tokyo Electric Power Co.) struggles to control it. Yet, the bulk of the radioactive water is stored in more than 1,000 water tanks.

Assuredly, Japan’s government has made an informal decision to dump Fukushima Daiichi’s radioactive water into the Pacific Ocean. A formal announcement could come as early as this year. Currently, 1.2 million tonnes of radioactive water is stored.

The problem: TEPCO is running out of storage space.

Government of Japan’s solution: Dump it into the Pacific Ocean.

Third-party expert solutions: Build more storage tanks.

Environmental groups insist there is no reason why additional storage tanks cannot be constructed outside the perimeter of the plant. They accuse the government of seeking the cheapest and quickest solution to the problem. All along, authorities have promised the site will be safe in 40 years. Really, only 40 years!

According to IAEA’s Director General Grossi, who visited Fukushima in February 2020, dumping radioactive water that is mainly contaminated with tritium meets global standards of practice. (Source: Michael Jacob in Tokyo, What! Is Japan Really Planning to Dump Radioactive Water From Fukushima Into the Ocean? Sweden-Science-Innovation, June 10, 2020)

In that regard, advocates of nuclear power utilize a subtle storyline that convinces, and deceives, the public into accepting nuclear power, however reluctantly. It goes something like this: “There’s nothing to worry about. Nuclear power plants routinely release tritium into the air and water. There is no economically feasible way to remove it. It’s normal, a standard operating procedure.” Nevertheless, as shall be explained in more detail forthwith, there is nothing positive about that posture, absolutely nothing!

According to TEPCO, all radioactive isotopes will be removed, except tritium, which is hard to separate. Still, similar to all radioactive substances, tritium is a carcinogen (causes cancer), a mutagen (causes genetic mutation), and a teratogen (causes malformation of an embryo).

The good news: Tritium is relatively weak beta radiation and does not have enough energy to penetrate human skin. The principal health risks are ingesting or breathing the tritium.

TEPCO has deployed an Advanced Liquid Processing System (ALPS) that purportedly removes 62 isotopes from the water, all except tritium, which is radioactive hydrogen and cannot easily be filtered out of water.

However, the filtration system has been plagued by malfunctions. According to Greenpeace International, within the past two years TEPCO admitted to failures to reduce radioactivity to levels below regulatory limits in more than 80% of the storage tanks. Reported levels of Strontium-90 (a deadly isotope) were more than 100 times regulatory standards with some tanks at 20,000 times.

They have deliberately held back for years detailed information on the radioactive material in the contaminated water. They have failed to explain to the citizens of Fukushima, wider Japan and to neighboring countries such as S. Korea and China that the contaminated water to be dumped into the Pacific Ocean contains dangerous levels of carbon-14 (koolstof-14). These, together with other radionuclides in the water will remain hazardous for thousands of years with the potential to cause genetic damage. It’s one more reason why these plans have to be abandoned.” (Source: Fukushima Reactor Water Could Damage Human DNA if Released, Says Greenpeace, The Guardian, October 23, 2020)

Cancer is the main risk to humans ingesting tritium. When tritium decays it emits a low-energy electron (roughly 18,000 electron volts) that escapes and slams into DNA, a ribosome or some other biologically important molecule. And, unlike other radionuclides, tritium is usually part of water, so it ends up in all parts of the body and therefore, in theory, can promote any kind of cancer. But that also helps reduce the risk because tritiated water is typically excreted in less than a month. (Source: Is Radioactive Hydrogen in Drinking Water a Cancer Threat, Scientific American, Feb. 7, 2014)

Some evidence suggests beta particles emitted by tritium are more effective at causing cancer than the high-energy radiation such as gamma rays. Low-energy electrons produce a greater impact because it doesn’t have the energy to spread its impact. At the end of its atomic-scale trip it delivers most of its ionizing energy in one relatively confined track rather than shedding energy all along its path like a higher-energy particle. This is known as “density of ionization.” As such, scientists say any amount of radiation poses a health risk.

According to Ian Fairlie, Ph.D. (Imperial College/London and Princeton University), a radiation biologist and former member of the 3-person secretariat to Britain’s Committee Examining the Radiation Risks of Internal Emitters: “At the present time, over a million tonnes of tritium-contaminated water are being held in about a thousand tanks at the site of the Fukushima Daiichi nuclear power station in Japan.  This is being added to at the rate of ~300 tonnes a day from the water being pumped to keep cool the melted nuclear fuels from the three destroyed reactors at Fukushima. Therefore new tanks are having to be built each week to cope with the influx.” (Source: Ian Fairlie, The Hazards of Tritium, March 13, 2020)

Furthermore, radioactive contaminants in the tanks, such as nuclides like caesium-137 (an extremely deadly isotope) and strontium-90 (which is equally deadly) in reduced concentrations still exist in unacceptable high levels. According to Fairlie: “These problems constitute a sharp reminder to the world’s media that the nuclear disaster at Fukushima did not end in 2011 and is continuing with no end in sight.”

There are no easy answers here. Barring a miraculous technical discovery which is unlikely, I think TEPCO/Japanese Gov’t will have to buy more land and keep on building more holding tanks to allow for tritium decay to take place. Ten half-lives for tritium is 123 years: that’s how long these tanks will have to last – at least. This will allow time not only for tritium to decay, but also for politicians to reflect on the wisdom of their support for nuclear power.” (Fairlie)

Meanwhile, over the course of seemingly endless years, Fukushima Daiichi remains “the world’s most dangerous active time bomb” for several reasons, and spent fuel rods are at the top of the list.

In addition to the 800 tons of lava-like molten fuel, aka: corium, (the big meltdown) in the three reactor containment vessels, the crippled reactor buildings contain more than 1,500 units of used nuclear fuel rods in open pools of water and must be kept cool at all times or all hell breaks loose. Loss of water from structural damage or another major earthquake (the structures are already seriously compromised) could expose the fuel rods, resulting in uncontrolled massive release of sizzling radiation that could be worse than the original meltdown, possibly exposing Tokyo to an emergency mass evacuation event with people running and screaming.

Tokyo Electric Power has plans for complete removal of the dangerous fuel rods by 2031. That work is being carried out remotely from a control room about 500 metres distance due to extraordinarily high radiation levels inside the reactor buildings.

Dismally, a perverse endlessness overhangs Chernobyl (1986) and Fukushima Daiichi (2011), earmarking these nuclear power meltdowns as the worst industrial accidents in human history.

Yet, with 440 operating nuclear plants worldwide, and 50 new plants under construction, there are plans to build a few hundred more.

Robert Hunziker lives in Los Angeles and can be reached at rlhunziker@gmail.com.

============================================

 Zie ook: 'Kernenergie promotie in Duitsland als gevolg van voorstel VVD en CDA minstens 3 kerncentrales te bouwen in Nederland' (niet 3 maar deze partijen, gesteund door de christenbroeders van de SGP, plus de fascisten van PVV en FvD, willen tot 10 nieuwe kerncentrales bouwen in ons kleine land, waar één ramp met zo'n centrale een groot deel van Nederland onbewoonbaar maakt!! Centrales die bovendien niet zijn te verzekeren, me dunkt een heel groot teken aan de wand!!)

'VVD en CDA willen onderzoek naar mogelijkheid tot nieuwbouw van drie kerncentrales'








 
''Ongeluk' in Canadese Pickering kerncentrale blijkt geen ongeluk te zijn' (en zie de links in dat bericht naar artikelen over bruinkool en de smerige rol die RWE speelt in Nederland en Duitsland)









 

'Radioactieve deeltjes van Fukushima ramp gevonden in de Beringstraat'


'Jodiumtabletten voor omwonenden kerncentrales.......... ha! ha! ha! ha! ha! ha! ha!