TODAY. Nuclear lobby busting to control COP 28 – now their stooge John Kerry is touting the fantasy of nuclear fusion.
Yeah yeah – we all know that nuclear fusion is theoretically “carbon-emissions-free”
Great! BUT:
Time. “The reality is that fusion energy will not be viable at scale anytime within the next decade, a time frame over which carbon emissions must be reduced by 50% to avoid catastrophic warming of more than 1.5°C,” – climate expert Michael Mann
Energy. Nuclear fusion requires 100 times more energy to charge than the energy it ends up producing.
Cost. Requires highly expensive tritium and lithium.
Space. Current efforts have taken up a huge area – how much space would be needed to do fusion on a commercial scale?
Wastes. tritium is the radioactive form of hydrogen. Its little isotopes are great at permeating metals and finding ways to escape tight enclosures. Obviously, this will pose a significant problem for those who want to continuously breed tritium in a fusion reactor.
Weapons connection. Since first tried out in that monstrous Marshall Islands explosion, fusion has been intended as a tool of war. the American government is interested not in using fusion technology to power the energy grid, but in using it to further strengthen this country’s already massive arsenal of atomic weapons.
A new Palestinian state could never be free as long as its neighbor, Israel, possesses nuclear weapons.
The 2-State Solution’s Nuclear Option
SCHEERPOST, By Scott Ritter / Consortium News, November 20, 2023
“………………………………………………………………………………………………. the United States continues to provide diplomatic cover for Israel’s nuclear weapons, maintaining the fiction of ambiguity despite knowing full well Israel possesses a very robust nuclear arsenal. This posture is becoming more difficult to sustain, given the increasingly aggressive posture assumed by the Israeli government regarding its own policy of ambiguity.
In 2022, during a periodic review by the United Nations of the Non Proliferation Treaty (NPT) , then-Israeli Prime Minister Yair Lapid addressed the Israeli Atomic Energy Commission about Israel’s “defensive and offensive capabilities, and what is referred to in the foreign media as other capabilities. These other capabilities,” Lapid said, clearly alluding to Israel’s nuclear weapons, “keep us alive and will keep us alive as long as we and our children are here.”
As things stand, the threat posed by Israeli nuclear weapons to both regional and global security is as great today as at any time in Israeli history. With the potential of the current Palestinian-Israeli conflict expanding to include Hezbollah and perhaps Iran, Israel for the first time since 1973 faces a genuine existential threat — the kind of threat Israel’s nuclear weapons were built to deter.
An Israeli minister has already alluded to the attractiveness of using nuclear weapons against Hamas in Gaza. But the real threat comes from what happens if Iran is dragged into the war. Here, Israel’s much rumored “Samson Option” could come into play, where Israel uses its nuclear arsenal to destroy as many enemies as possible once the continued survival of Israel is at risk.
Given the present risk posed by Israel’s nuclear arsenal, it is essential that the current Palestinian-Israeli conflict be prevented from expanding. Once the conflict can be ended, the process must begin for a long-term solution that includes a free and independent Palestine. However, a new Palestinian state can never be free if its neighbor, Israel possesses nuclear weapons.
Operating with the understanding that the creation of a Palestinian state would coincide with a renewed push for normalization of relations between Israel and its Arab neighbors, the result vis-à-vis the security of Israel would be a much-improved situation that made Israel’s need for nuclear weapons moot.
South African Example
The question then becomes how Israel can be persuaded to voluntarily give up its nuclear weapons. Fortunately, there is an example from history.
Apartheid South Africa had embarked on a nuclear weapons program in the early 1970s. U.S. intelligence reports show that South Africa formally began its nuclear weapons program in 1973. By 1982, it had developed and built its first nuclear explosive device.
Seven years later, in 1989, South Africa had manufactured six functional nuclear bombs, each capable of delivering an explosive equivalent of 19 kilotons of TNT.
The South African nuclear weapons program mirrored that of the Israeli program in that it was conducted in great secrecy and designed to deter the threat posed by communist-supported black liberation movements operating all along the periphery of the South African nation.
In 1989, South Africa elected a new president, F. W. de Klerk, who quickly realized that the political winds were changing and that the country could very well, in the span of a few years, fall under the control of black nationalists led by Nelson Mandela.
To prevent that, De Klerk took the unprecedented decision to join the NPT as a non-nuclear state and open its nuclear program for inspection and dismantlement. South Africa joined the NPT in 1991; by 1994, all South Africa’s nuclear weapons had been dismantled under international supervision.
Once the Palestinian-Israeli war comes to an end, and if Israel begins negotiating in good faith about the possibility of a free and independent Palestinian state, the United States should lead an effort to get the Israeli government to follow the path taken by F. W. de Klerk by signing the NPT and working with the International Atomic Energy Agency to dismantle the totality of Israel’s nuclear arsenal.
Such a move should be non-negotiable — if the United States is serious about creating the conditions of a long and lasting peace between Israel and Palestine, then it should use all the leverage at its disposal to pressure Israel to voluntarily disarm itself of nuclear weapons.
This is the only viable path to peace between Israel and the Arab and Muslim world that surrounds it.
Nuclear Fusion Won’t Save the Climate But It Might Blow Up the World
the United States’ first full-scale hydrogen bomb was, in fact, a fission explosion that initiated a fusion reaction.
since first tried out in that monstrous Marshall Islands explosion, fusion has been intended as a tool of war. And sadly, so it remains,
Buried deep in the Lawrence Livermore National Laboratory’s website, the government comes clean about what these fusion experiments at the $3.5 billion National Ignition Facility (NIF) are really all about.
above – Edward Teller – inventor of the thermonuclear fusion bomb – (a man consumed by his fear and hatred of Russia)
they require 100 times more energy to charge than the energy they ended up producing.
Resilience, By Joshua Frank, originally published by TomDispatch 23 Jan 23
.”…………………. the New York Times and CNN alerted me that morning, at stake was a new technology that could potentially solve the worst dilemma humanity faces: climate change and the desperate overheating of our planet. Net-energy-gain fusion, a long-sought-after panacea for all that’s wrong with traditional nuclear-fission energy (read: accidents, radioactive waste), had finally been achieved at the Lawrence Livermore National Laboratory in California…………………..
…All in all, the reviews for fusion were positively glowing and it seemed to make instant sense. After all, what could possibly be wrong ……………..
The Big Catch
On a very basic level, fusion is the stuff of stars. Within the Earth’s sun, hydrogen combines with helium to create heat in the form of sunlight. Inside the walls of the Livermore Lab, this natural process was imitated by blasting 192 gigantic lasers into a tube the size of a baby’s toe. Inside that cylinder sat a “hydrogen-encased diamond.” When the laser shot through the small hole, it destroyed that diamond quicker than the blink of an eye. In doing so, it created a bunch of invisible x-rays that compressed a small pellet of deuterium and tritium, which scientists refer to as “heavy hydrogen.
“In a brief moment lasting less than 100 trillionths of a second, 2.05 megajoules of energy — roughly the equivalent of a pound of TNT — bombarded the hydrogen pellet,”explained New York Times reporter Kenneth Chang. “Out flowed a flood of neutron particles — the product of fusion — which carried about 3 megajoules of energy, a factor of 1.5 in energy gain.”
As with so many breakthroughs, there was a catch. First, 3 megajoules isn’t much energy. After all, it takes 360,000 megajoules to create 300 hours of light from a single 100-watt light bulb. So, Livermore’s fusion development isn’t going to electrify a single home, let alone a million homes, anytime soon. And there was another nagging issue with this little fusion creation as well: it took 300 megajoules to power up those 192 lasers. Simply put, at the moment, they require 100 times more energy to charge than the energy they ended up producing.
“The reality is that fusion energy will not be viable at scale anytime within the next decade, a time frame over which carbon emissions must be reduced by 50% to avoid catastrophic warming of more than 1.5°C,” – climate expert Michael Mann
Tritium Trials and Tribulations
The secretive and heavily secured National Ignition Facility where that test took place is the size of a sprawling sports arena. It could, in fact, hold three football fields. Which makes me wonder: how much space would be needed to do fusion on a commercial scale? No good answer is yet available. Then there’s the trouble with that isotope tritium needed to help along the fusion reaction. It’s not easy to come by and costs about as much as diamonds, around $30,000 per gram. Right now, even some of the bigwigs at the Department of Defense are worried that we’re running out of usable tritium.
…………”tritium, with a half-life of 12.3 years, exists naturally only in trace amounts in the upper atmosphere, the product of cosmic ray bombardment.” – writes Daniel Clery in Science.
…………………… the reactors themselves will have to be lined with a lot of lithium, itself an expensive chemical element at $71 a kilogram (copper, by contrast, is around $9.44 a kilogram), to allow the process to work correctly.
Then there’s also a commonly repeated misstatement that fusion doesn’t create significant radioactive waste, a haunting reality for the world’s current fleet of nuclear plants. True, plutonium, which can be used as fuel in atomic weapons, isn’t a natural byproduct of fusion, but tritium is the radioactive form of hydrogen. Its little isotopes are great at permeating metals and finding ways to escape tight enclosures. Obviously, this will pose a significant problem for those who want to continuously breed tritium in a fusion reactor. It also presents a concern for people worried about radioactivity making its way out of such facilities and into the environment.
“Cancer is the main risk from humans ingesting tritium. When tritium decays it spits out a low-energy electron (roughly 18,000 electron volts) that escapes and slams into DNA, a ribosome, or some other biologically important molecule,” David Biello explains in Scientific American. “And, unlike other radionuclides, tritium is usually part of water, so it ends up in all parts of the body and therefore can, in theory, promote any kind of cancer. But that also helps reduce the risk: any tritiated water is typically excreted in less than a month.”
If that sounds problematic, that’s because it is. This country’s above-ground atomic bomb testing in the 1950s and 1960s was responsible for most of the man-made tritium that’s lingering in the environment. And it will be at least 2046, 84 years after the last American atmospheric nuclear detonation in Nevada, before tritium there will no longer pose a problem for the area.
Of course, tritium also escapes from our existing nuclear reactors and is routinely found near such facilities where it occurs “naturally” during the fission process. In fact, after Illinois farmers discovered their wells had been contaminated by the nearby Braidwood nuclear plant, they successfully sued the site’s operator Exelon, which, in 2005, was caught discharging 6.2 million gallons of tritium-laden water into the soil.
In the United States, the Nuclear Regulatory Commission (NRC) allows the industry to monitor for tritium releases at nuclear sites; the industry is politely asked to alert the NRC in a “timely manner” if tritium is either intentionally or accidentally released. But a June 2011 report issued by the Government Accountability Office cast doubt on the NRC’s archaic system for assessing tritium discharges, suggesting that it’s anything but effective. (“Absent such an assessment, we continue to believe that NRC has no assurance that the Groundwater Protection Initiative will lead to prompt detection of underground piping system leaks as nuclear power plants age.”)
Consider all of this a way of saying that, if the NRC isn’t doing an adequate job of monitoring tritium leaks already occurring with regularity at the country’s nuclear plants, how the heck will it do a better job of tracking the stuff at fusion plants in the future? And as I suggest in my new book, Atomic Days: The Untold Story of the Most Toxic Place in America, the NRC is plain awful at just about everything it does.
Instruments of Death
All of that got me wondering: if tritium, vital for the fusion process, is radioactive, and if they aren’t going to be operating those lasers in time to put the brakes on climate change, what’s really going on here?
Maybe some clues lie (as is so often the case) in history. The initial idea for a fusion reaction was proposed by English physicist Arthur Eddington in 1920. More than 30 years later, on November 1, 1952, the first full-scale U.S. test of a thermonuclear device, “Operation Ivy,” took place in the Marshall Islands in the Pacific Ocean. It yielded a mushroom-cloud explosion from a fusion reaction equivalent in its power to 10.4 Megatons of TNT. That was 450 times more powerful than the atomic bomb the U.S. had dropped on the Japanese city of Nagasaki only seven years earlier to end World War II. It created an underwater crater 6,240 feet wide and 164 feet deep…………….
Nicknamed “Ivy Mike,” the bomb was a Teller-Ulam thermonuclear device, named after its creators Edward Teller and Stanislaw Ulam. It was also the United States’ first full-scale hydrogen bomb, an altogether different beast than the two awful nukes dropped on Japan in August 1945. Those bombs utilized fission in their cores to create massive explosions. But Ivy Mike gave a little insight into what was still possible for future weapons of annihilation.
The details of how the Teller-Ulam device works are still classified, but historian of science Alex Wellerstein explained the concept well in the New Yorker:
“The basic idea is, as far as we know, as follows. Take a fission weapon — call it the primary. Take a capsule of fusionable material, cover it with depleted uranium, and call it the secondary. Take both the primary and the secondary and put them inside a radiation case — a box made of very heavy materials. When the primary detonates, radiation flows out of it, filling the case with X rays. This process, which is known as radiation implosion, will, through one mechanism or another… compress the secondary to very high densities, inaugurating fusion reactions on a large scale. These fusion reactions will, in turn, let off neutrons of such a high energy that they can make the normally inert depleted uranium of the secondary’s casing undergo fission.”
Got it? Ivy Mike was, in fact, a fission explosion that initiated a fusion reaction. But ultimately, the science of how those instruments of death work isn’t all that important. The takeaway here is that, since first tried out in that monstrous Marshall Islands explosion, fusion has been intended as a tool of war. And sadly, so it remains, despite all the publicity about its possible use some distant day in relation to climate change. In truth, any fusion breakthroughs are potentially of critical importance not as a remedy for our warming climate but for a future apocalyptic world of war.
Despite all the fantastic media publicity, that’s how the U.S. government has always seen it and that’s why the latest fusion test to create “energy” was executed in the utmost secrecy at the Lawrence Livermore National Laboratory. One thing should be taken for granted: the American government is interested not in using fusion technology to power the energy grid, but in using it to further strengthen this country’s already massive arsenal of atomic weapons.
Consider it an irony, under the circumstances, but in its announcement about the success at Livermore — though this obviously wasn’t what made the headlines — the Department of Energy didn’t skirt around the issue of gains for future atomic weaponry. Jill Hruby, the department’s undersecretary for nuclear security, admitted that, in achieving a fusion ignition, researchers had “opened a new chapter in NNSA’s science-based Stockpile Stewardship Program.” (NNSA stands for the National Nuclear Security Administration.) That “chapter” Hruby was bragging about has a lot more to do with “modernizing” the country’s nuclear weapons capabilities than with using laser fusion to end our reliance on fossil fuels.
“Had we not pursued the hydrogen bomb,” Edward Teller once said, “there is a very real threat that we would now all be speaking Russian. I have no regrets.” Some attitudes die hard.
Buried deep in the Lawrence Livermore National Laboratory’s website, the government comes clean about what these fusion experiments at the $3.5 billion National Ignition Facility (NIF) are really all about:
NIF’s high energy density and inertial confinement fusion experiments, coupled with the increasingly sophisticated simulations available from some of the world’s most powerful supercomputers, increase our understanding of weapon physics, including the properties and survivability of weapons-relevant materials… The high rigor and multidisciplinary nature of NIF experiments play a key role in attracting, training, testing, and retaining new generations of skilled stockpile stewards who will continue the mission to protect America into the future.”
Yes, despite all the media attention to climate change, this is a rare yet intentional admission, surely meant to frighten officials in China and Russia. It leaves little doubt about what this fusion breakthrough means. It’s not about creating future clean energy and never has been. It’s about “protecting” the world’s greatest capitalist superpower. Competitors beware.
Sadly, fusion won’t save the Arctic from melting, but if we don’t put a stop to it, that breakthrough technology could someday melt us all. https://www.resilience.org/stories/2023-01-26/nuclear-fusion-wont-save-the-climate-but-it-might-blow-up-the-world/
Japan’s Fukushima plant completes third water release
Canberra Times By Mari Yamaguchi, November 20 2023 – Australian Associated Press
The release of a third batch of treated radioactive wastewater from Japan’s damaged Fukushima nuclear plant into the Pacific Ocean ended safely as planned, its operator says, as the country’s seafood producers continue to suffer from a Chinese import ban imposed after the discharges began.
Large amounts of radioactive wastewater have accumulated at the nuclear plant since it was damaged by a massive earthquake and tsunami in 2011.
It began discharging treated and diluted wastewater into the ocean on August 24 and finished releasing the third 7800-ton batch on Monday.
The process is expected to take decades.
The discharges have been strongly opposed by fishing groups and neighbouring countries including China, which banned all imports of Japanese seafood, badly hurting Japanese producers and exporters of scallops and other seafood……………………………………………………
Japan’s government has set up a relief fund to help find new markets for Japanese seafood, and the central and local governments have led campaigns to encourage Japanese consumers to eat more fish and support Fukushima seafood producers.
TEPCO is also providing compensation to the fisheries industry for “reputational damage” to its products caused by the wastewater release and said it has mailed application forms to 580 possible compensation seekers…………………………..
TEPCO and the government say the process is safe, but some scientists say the continuing release of water containing radionuclides from damaged reactors is unprecedented and should be monitored closely.
Monday’s completion of the release of the third batch of wastewater brings the total to 23,400 tons.
TEPCO plans a fourth release by the end of March 2024.
That would only empty about 10 of the approximately 1000 storage tanks at the Fukushima plant because of its continued production of wastewater, although officials say the pace of the discharges will pick up later.
The tanks currently hold more than 1.3 million tons of wastewater, most of which needs to be retreated to meet safety standards before release.
TEPCO and the government say discharging the water into the sea is unavoidable because the tanks need to be removed from the grounds of the plant so that it can be decommissioned. https://www.canberratimes.com.au/story/8430646/japans-fukushima-plant-completes-third-water-release/
1 This month
of the week – Disrupting War & Militarism in Oceania. Active solidarity. Radical practice.
Antinuclear 