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Cold fusion
ZPEnergy ^ | 31 Mar 05 | Sam Okoye

Posted on 03/30/2005 2:14:49 PM PST by Arkie2

It was the most notorious scientific experiment in recent memory - in 1989, the two men who claimed to have discovered the energy of the future were condemned as impostors and exiled by their peers. Can it possibly make sense to reopen the cold fusion investigation? A surprising number of researchers have already done so.

Almost four stories high, framed in steel beams and tangled in pipes, conduits, cables, and coils, the Joint European Torus (JET) claims to be the largest fusion power experiment in the world. Located in Abingdon, near Oxford, England, JET is a monument to big science, its donut-shaped containment vessel dwarfing maintenance workers who enter it in protective suits. Here in this gleaming nuclear cauldron, deuterium gas is energized with 7 million amperes of electric current and heated to a temperature of 300 million degrees Celsius - more than 10 times hotter than the centre of the sun. Under these extreme conditions atomic nuclei collide and fuse, liberating energy that could provide virtually limitless power.

High-tension lines run directly to the installation, but they don't take electricity out - they bring it in. For a few magic seconds in 1997, JET managed to return 60 percent of the energy it consumed, but that's the best it has ever done, and is typical of fusion experiments worldwide. The US Department of Energy had predicted that we will have to wait another five decades, minimum, before fusion power becomes practical. Meanwhile, the United States continues to depend on fossil fuels for 85 percent of its energy.

Many miles away, in the basement of a new retirement home in the hills overlooking Santa Fe, New Mexico, Edmund Storms, a retired scientist of the US Los Alamos National Laboratory, has built a different kind of fusion reactor. It consists of laboratory glassware, off-the-shelf chemical supplies, two aging Macintosh personal computers for data acquisition, and an insulated wooden box the size of a kitchen cabinet. While JET's 15 European sponsor-nations have paid about US$1 billion for their hardware, and the US government has spent $14.7 billion on fusion research since 1951 (all figures in 1997 dollars), Storms's apparatus and ancillary gear have cost less than $50,000. Moreover, he claims that his equipment works, generating surplus heat for days at a time.

Storms is not an anti-establishment pseudo scientist pursuing a crackpot theory. For 34 years he was part of the nuclear research establishment himself, employed at Los Alamos on projects such as nuclear motors for space vehicles. Subsequently he testified before a US congressional sub-committee considering the future of fusion. He believes you don't need millions of degrees or billions of dollars to fuse atomic nuclei and yield energy. "You can obtain fusion reactions at room temperature," he says, in his genial, matter-of-fact style. "I am absolutely certain that cold nuclear fusion reaction phenomenon is real. It is quite extraordinary, and if it can be developed, it will have profound effects on society."

That is an understatement. If low-temperature fusion does exist and can be perfected, power generation could be decentralized. Each home could heat or cool itself and produce its own electricity, probably using a form of water as fuel. Even automobiles might be cold fusion powered. Massive generators and ugly power lines could be eliminated, along with now expensive crude oil with its large contribution to the greenhouse effect. Moreover, according to some experimental data, low-temperature fusion doesn't create significant hazardous radiation or radioactive waste.

What is cold fusion and what does it mean to science and society?

Cold fusion is important because it promises to be a new source of pollution-free, inexhaustible energy. In addition, it is important because it reveals the existence of a new way nuclei of atoms can interact that conventional scientific theory predicts is impossible.

What then is this phenomenon that offers such promise?

Energy can be obtained from the atomic nucleus in two different ways. On the one hand, a large nucleus can be broken into smaller pieces, such as is experienced by uranium in a conventional nuclear reactor and by the material in an atom bomb. This is called fission. On the other hand, two very small nuclei can be joined together, such as occurs during fusion of two light elements known as deuterium and tritium in a Hot Fusion reactor as well as in a hydrogen thermonuclear bomb. This process, called fusion, also takes place in our Sun and stars to produce much of the light we see.

The fission reaction is caused to happen by adding neutrons (one of the components of an atomic nucleus) to the nucleus of uranium or plutonium to make it unstable. The unstable nucleus splits into two nearly equal pieces, thereby releasing more neutrons, which continue the process. As every one now knows, this process produces considerable dangerous waste that is highly radioactive. The uranium used as fuel also occurs in limited amounts in the earth's crust. As a result, this source of energy is not ideal, although widely used in electricity nuclear generating plants at the present time.

Fusion reactions bring together two atomic nuclei and force them together to combine into one. This takes a large amount of energy to overcome the natural electromagnetic repulsion between the nuclei, but when they combine, the resulting single nucleus has a mass slightly less than the two original ones. This difference in mass (m, say) converts into energy (E, say), as predicted by Einstein and described by his famous equation, E=mc2, c being the speed of light. Lighter nuclei are easier to fuse than heavier ones, so hydrogen, the most abundant element in the universe, is the best fusion fuel. The normal hot fusion reaction requires the nuclei of two deuterium or tritium atoms to be smashed together with great force or energy. This is accomplished by raising their temperature. However, this temperature is so high that the interacting materials cannot be held in a solid container which would obviously melt at such high temperatures, but must be contained in space by a magnetic field. This process has proven to be very difficult to accomplish for a time sufficient to generate useable energy. In spite of this difficulty, attempts have been under way for the last 40 years and with the expenditure of many billions of dollars. Success continues to be elusive while the effort continues.

For many reasons, fusion power is seen by many as the "natural" long-term universal power source. Some suggested advantages of commercial fusion reactors as power producers are: · An effectively inexhaustible supply of fuel (i.e., hydrogen obtained from water) · A fuel supply that is available from the oceans to all coastal countries and therefore cannot be interrupted by other nations · No possibility of "nuclear runaway" (excursions or criticality accidents) · No chemical combustion products as effluents · No use of weapons grade nuclear materials, thus no possibility of diversion for purposes of blackmail or sabotage · Low amount of radioactive by-products produced with a significantly shorter half-life relative to fission reactors.

Some argue that fusion is the best option for a truly sustainable or long term energy source because the fuel is virtually inexhaustible

Cold fusion, on the other hand, attempts to achieve the same result, but by using solid materials as the container held at normal temperatures. The container consists of various metals, including palladium, with which the deuterium is reacted to form a chemical compound. While in this environment, the electrical barrier between the deuterium nuclei is reduced so that two nuclei can fuse without having to be forced together. Because the process causing this to happen is not well understood, the possibility is rejected by many conventional scientists. Difficulty in producing the process on command has intensified the rejection. While this difficulty is real, it has not, as many sceptics have claimed, prevented the process from being reproduced hundreds of times in laboratories all over the world for the past 13 years. Indeed, the process continues to be reproduced with increasing ease using a variety of methods and materials.

The current status of cold fusion AS the story goes, on March 23, 1989, Stanley Pons and Martin Fleischmann both of the Chemistry Department of the University of Utah announced their discovery of "cold fusion." It was the most heavily hyped science story of the decade, but the awed excitement quickly evaporated amid accusations of fraud and incompetence when their claims could not be substantiated by their peers. When it was over, Pons and Fleischmann were humiliated by the scientific establishment; their reputations ruined, they fled from their laboratory and dropped out of sight. "Cold fusion" and "hoax" became synonymous in most people's minds, and today, everyone knows that the idea has been discredited.

Or has it? In fact, despite the scandal, laboratories in at least eight countries are still spending millions on cold fusion research. During the past nine years this work has yielded a huge body of evidence, while remaining virtually unknown - because most academic journals adamantly refuse to publish papers on it. At most, the story of cold fusion represents a colossal conspiracy of denial. At least, it is one of the strangest untold stories in 20th-century science. Since cold fusion is essentially a chemical process similar to what happens in an ordinary electric battery, the real question nagging nuclear physicists is whether a very powerful nuclear process can be triggered by an ordinary chemical process? The answer, based on what is known about nuclear phenomena, is apparently negative. But on the other hand, too many experiments in many laboratories all over the world now seem to indicate the opposite. Indeed, a variety of nuclear reactions, including fusion, have been demonstrated to occur spontaneously in special chemical environments at very low levels. Some of these reactions produce detectable heat. Occasionally, these reactions can be made to occur at potentially useful rates, but the scientific reasons are not yet understood. Until the necessary environment is identified and can be produced in large quantity, the cold fusion field continues to have only scientific interest to a relatively few people. However, once the novel environment has been identified, normal engineering methods can be applied to make the material in quantity for use in a suitable power plant.

So far, scientists have discovered thirteen different ways to initiate the reactions and have demonstrated different aspects of the effect hundreds of times in many laboratories world-wide. These demonstrations include production of anomalous energy, helium, tritium, and a variety of elements not previously present in the experimental container. Clearly, the phenomenon is not limited to fusion. Because the novel chemical environment is largely produced by chance, many efforts to replicate the effect fail. Such failure frustrates an understanding of the phenomenon and emboldens sceptics.

Explanations for the effect are being provided by dozens of theoreticians, with growing success. The major problem has been that present understanding rests on observing such nuclear reactions only after applying high energy - a brute force method. Naturally, this approach and resulting theory do not apply to the conditions being explored in this work. Subtle forces and processes are overwhelmed by this large energy and made invisible. Indeed, many people noticed that when the applied energy is reduced, more fusion is observed than "theory" would predict. This behaviour has been frequently ignored because the intent of conventional work is to make fusion happen at the highest possible rate. The chemically assisted nuclear reaction (CANR) effect has shown that if the environment is optimised, the required energy can be minimized. Consequently, the phenomenon is just a natural extrapolation of conventional studies, but with the environment no longer being ignored.

The phenomenon demonstrates that within the correct chemical environment, a wide variety of nuclear reactions can be initiated without producing harmful radiation and with few radioactive products. This phenomenon provides a potential way to generate clean, inexhaustible energy as well as to reduce radioactive waste obtained from fission reactors. Although the effect is now being studied and the results patented in at least six countries, work in the U. S. is minimal and for now cannot be patented, and can rarely be published in conventional US scientific journals. An official bias against the phenomenon exists in the U.S. government that inhibits both public and private financing.

Future Prognosis for cold fusion Over a 10-year period from 1989, US navy labs ran more than 200 experiments to investigate whether nuclear reactions generating more energy than they consume - supposedly only possible inside stars - can occur at room temperature. Numerous researchers have since pronounced themselves believers.

With controllable cold fusion, many of the world's energy problems would simply melt away: no wonder the US Department of Energy (DoE) is now interested. In December 2004, after a lengthy review of the evidence, it said it was open to receiving proposals for new cold fusion experiments. That is quite a turn around. The DoE's first report on the subject, published 15 years ago, concluded that the original cold fusion results, produced by Martin Fleischmann and Stanley Pons of the University of Utah and unveiled at a press conference in 1989, were impossible to reproduce, and thus probably false.

The basic claim of Pons and Fleischmann is that dipping palladium electrodes into heavy water - in which oxygen is combined with the hydrogen isotope deuterium - can release a large amount of energy. Placing a voltage across the electrodes supposedly allows deuterium nuclei to move into palladium's molecular structure, enabling them to overcome their natural repulsion and fuse together, releasing a blast of energy. The snag is that fusion at room temperature is deemed impossible by every accepted scientific theory. That doesn't matter, according to David Nagel, an engineer at George Washington University in Washington DC. Superconductors took 40 years to explain, he points out, so there's no reason to dismiss cold fusion. "The experimental case is bullet-proof," he says. "You can't make it go away." In the circumstance everyone should expect to hear a lot more about cold fusion in the next five to ten years.


TOPICS: Miscellaneous; Technical
KEYWORDS: coldfusion; energy; fusion; science
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To: Yo-Yo
So far, cold fusion has had the repeatability of ESP experiments.

Wait a minute, I have been told, in no uncertain terms, that the scientific method does not necessarily require repeatable experiments. Moreover, I was the only person in the world who thought it did.

What say you?

21 posted on 03/30/2005 2:48:10 PM PST by AndyTheBear (Disastrous social experimentation is the opiate of elitist snobs.)
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To: Arkie2

Well, all I know is that it would sure rock the world. I read up quite a bit on the phenomenon back when EPRI was looking into it. I guess I figured that since it tapered off, then it would vanish completely. To tell you the truth, it always rang true to me, and I am one of the most skeptical people in the world.


22 posted on 03/30/2005 2:49:03 PM PST by Lekker 1 ("There is not the slightest indication that nuclear energy will ever be attainable"- Albert Einstein)
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To: Lekker 1

I can't say I believe in it but I try to keep an open mind. After all, I'm reminded of all the opinions of all the foremost scientists regarding the possibility of powered flight until a couple of bicycle mechanics proved them wrong.


23 posted on 03/30/2005 2:57:38 PM PST by Arkie2
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To: Arkie2

Actually, I don't doubt that they'll get it working some day; hell, they may already have it working. The trick is how to charge people for it. That's why solar power will never go too far.


24 posted on 03/30/2005 3:00:11 PM PST by hleewilder
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To: Arkie2
Because the process causing this to happen is not well understood, the possibility is rejected by many conventional scientists.

Reminds me of what Edison faced.
25 posted on 03/30/2005 3:00:28 PM PST by aruanan
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To: Arkie2
because most academic journals adamantly refuse to publish papers on it.

This really doesn't mean anything because what is now known as peer review in academic science publishing didn't much exist until after WWII.
26 posted on 03/30/2005 3:02:01 PM PST by aruanan
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To: aruanan
"... after a few more flashes in the pan, we shall hear
very little more of Edison or his electric lamp.
Every claim he makes has been tested and proved impracticable."

[New York Times, January 16, 1880]
27 posted on 03/30/2005 3:05:14 PM PST by Diogenesis (Igitur qui desiderat pacem, praeparet bellum)
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To: hleewilder
That's why solar power will never go too far.

Have to disagree. The folks that make and install the solar panels definitely get paid. The problem is that you have to pay them too much compared to what you save on your electric bill.

If and when the interest on a loan to finance such an installation is significantly less then the marginal cost of the electrical power it replaces, the sales will take off.

28 posted on 03/30/2005 3:07:00 PM PST by AndyTheBear (Disastrous social experimentation is the opiate of elitist snobs.)
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To: Diogenesis

Wow. "The Times, getting it wrong since 1880". That would look good on their masthead!


29 posted on 03/30/2005 3:07:42 PM PST by Arkie2
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To: AndyTheBear

I've looked into solar for my house. It would take 20 years at current energy prices to amortize the cost even with tax breaks. When they get it in the range of a 5-10 year payoff I'll take a serious look at it.


30 posted on 03/30/2005 3:09:38 PM PST by Arkie2
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To: AndyTheBear
The difference between science and a seance is repeatability.

If not, then we waste a whole lot of money and lab time on high school chemestry students.

31 posted on 03/30/2005 3:12:57 PM PST by Yo-Yo
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To: Arkie2

The closest thing to free energy is ground water heat pumps - well water stays at 56 degrees year round and it is great for heating when its cold and cooling when its hot.

Plus unlike scientists, it knows which is which.


32 posted on 03/30/2005 3:22:13 PM PST by spanalot (Bring it On)
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To: AndyTheBear

Good point.


33 posted on 03/30/2005 3:22:50 PM PST by hleewilder
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To: AndyTheBear
Wait a minute, I have been told, in no uncertain terms, that the scientific method does not necessarily require repeatable experiments. Moreover, I was the only person in the world who thought it did.

What say you?

From Wikipedia.org "The Scientific Method":

Verification

Science is a social enterprise, and scientific work will become accepted by the community only if they can be verified. Crucially, experimental and theoretical results must be reproduced by others within the science community. (emphasis added.)

34 posted on 03/30/2005 3:36:01 PM PST by Yo-Yo
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To: Arkie2

bump


35 posted on 03/30/2005 3:37:32 PM PST by fso301
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To: Arkie2

CF bump and ping


36 posted on 03/30/2005 3:38:31 PM PST by dennisw ("What is Man that thou art mindful of him")
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To: Arkie2

Bump for some late night reading........


37 posted on 03/30/2005 3:39:50 PM PST by Jackknife (No man is entitled to the blessings of freedom unless he be vigilant in its preservation.-MacArthur)
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To: Diogenesis

bttt And only ten people in America know how to make colloidal gold


38 posted on 03/30/2005 3:41:25 PM PST by dennisw ("What is Man that thou art mindful of him")
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To: Arkie2
The New York Times ALWAYS gets it wrong apparently.

"Professor Goddard ... does not know the relation of
action to reaction ... he only seems to lack the knowledge
ladled out daily in our high schools"
[New York Times, January 13, 1920]

39 posted on 03/30/2005 3:42:36 PM PST by Diogenesis (Igitur qui desiderat pacem, praeparet bellum)
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To: Arkie2

bump for later read


40 posted on 03/30/2005 3:44:27 PM PST by Captain Beyond (The Hammer of the gods! (Just a cool line from a Led Zep song))
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