The Future of Energy: Cold Fusion for US and China

NASA_coldfusionThe science behind cold fusion has been a source of constant controversy for decades. Not only has this pursuit turned up its share of phony claims, the fact that it also promises to yield clean, abundant energy on the cheap has led to no shortage of romantic endorsements and vocal detractors. But if it could be made to work, there is no doubt that our energy problems would be solved, and in a way that is not harmful to our environment.

Last February, NASA made waves by announcing that they were working towards cold fusion through low-energy nuclear reaction (LENR) technology. Then in September, the National Ignition Facility (NIF) in California announced a major milestone when they managed to produce a controlled reaction that provided more energy that was required to start it.

e-cat1But all of that seemed to pale in comparison to the announcement by Andrea Rossi’s that he managed to create a fusion power plant that was reportedly capable of generated a single megawatt of power. Known as the E-Cat 1MW Plant (short for Energy-Catalyser), Rossi announced its creation back in November, and indicated that he and his company were taking pre-orders and that they would start deliveries by 2014.

Today, the big news is that a large US investment company has acquired the rights to the cold fusion LENR technology. That investment company is Cherokee Investment Partners, and they appear to be interested in deploying the cold fusion tech commercially in both China and the US to meet both countries existing and projected energy needs.

fusion_energyRelying on the same process as other LENR technology, the E-Cat generates cold fusion by taking nickel and hydrogen and fusing them into copper – a process that has 10,000 times the energy density of gasoline, and 1,000 times the power density. Rossi says he’s found a special catalyst that makes the process work, but many scientists remain unconvinced.

Regardless of whether or it not it can deliver, it now seems that Rossi’s previously allusions to an American partner are true after all. Much like everything surrounding Rossi, he chose to be nebulous about the identity of the company that was supporting him. However, with this latest deal, Cherokee and its CEO Thomas Darden, a man who has a history of investing in clean energy, is a believer in the design.

e-cat3In addition to preparing the patents through a Limited Liability Company – known as Industrial Heat – there are also reports that Darden recently visited China to showcase the E-Cat to Chinese officials and businesspeople. China is reportedly looking at using the E-Cat to significantly reduce its carbon footprint and meet its the energy needs of its growing cities in a way that won’t generate more air pollution.

Needless to say, this deal has bolstered Rossi’s and the E-Cat’s credibility, but the technology remains unproven. Rossi says that he has a team of international scientists that are planning to do another round of tests on the E-Cat which are slated to end in March, with a peer-reviewed report to follow sometime after that. Fingers crossed, those rounds of test will provide conclusive proof.

Then, we can all get to work dreaming about a bright, clean future, and the thousands of applications such plants will have!

Source: extremetech.com

The Future of Fusion: 1-MW Cold Fusion Plant Now Available!

fusion_energyIt’s actually here: the world’s first fusion power plant that is capable of generated a single megawatt of power and is available for pre-order. It’s known as the E-Cat 1MW Plant, which comes in a standard shipping container and uses low-energy nuclear reactions (LENR) – a process, often known as cold fusion, that fuses nickel and hydrogen into copper – to produce energy 100,000 times more efficiently than combustion.

E-Cat, or Energy Catalyzer, is a technology (and company of the same name) developed by Andrea Rossi – an Italian scientist who claims he’s finally harnessed cold fusion. For just $1.5 million, people can pre-order an E-Cat and expect delivery by early 2014. With this news, many are wondering if the age of cold fusion, where clean, abundant energy is readily available, is finally upon us.

E.Cat1Cold fusion, as the name implies, is like normal fusion, but instead of producing fast neutrons and ionizing radiation that decimates everything in its path, cold fusion’s Low-Energy Nuclear Reactions (LENR) produce very slow, safe neutrons. Where normal fusion requires massive, expensive containment systems, it sounds like E-Cat’s cold fusion can be safely contained inside a simple, pressurized vessel.

And while normal fusion power is generated by fusing hydrogen atoms, cold fusion fuses nickel and hydrogen into copper, by way of some kind of special catalyst. Despite the rudimentary setup, though, cold fusion still has the massive power and energy density intrinsic to atomic fusion. In short, it produces far more energy than conventional chemical reactions – such as burning fossil fuels. The only challenge is, the massive amounts of power that are usually required to initiate the reaction.

e.cat2According to E-Cat, each of its cold fusion reactors measures 20x20x1 centimeters (7.8×7.8×0.39 inches) and you stack these individual reactors together in parallel to create a thermal plant. The E-Cat 1MW Plant consists of 106 of these units rammed into a standard shipping container. Based on the specs provided by Rossi, the fuel costs works out to be $1 per megawatt-hour, which is utterly insane. Coal power is around $100 per megawatt-hour.

But before anyone gets too excited about the commercialization of cold fusion, it should be noted that Rossi is still being incredibly opaque about how his cold fusion tech actually works. The data sheet for the 1MW Plant shares one interesting tidbit: Despite producing 1MW of power, the plant requires a constant 200 kilowatts of input power — presumably to sustain the reaction.

E.Cat5_-1030x858The spec sheet also says that the fuel (specially treated nickel and hydrogen gas) needs to be recharged every two years. One of the science community’ biggest sticking points about Rossi’s cold fusion devices is that he hasn’t proven that his LENR is self-sustaining. Despite a huge amount of output energy, the device still needs to be connected to the mains.

What’s more, due to a lack of published papers, and thus peer review, and a dearth of protective patents, the scientific community in general remains very wary of Rossi’s claims. And of course, we should all remember that this is not the first time that researchers have proclaimed victory in the race to make cold fusion happen. Whenever the words “cold fusion” are raised in conjunction, the case of the Fleischmann–Pons experiment immediately springs to mind.

NASA_coldfusionFor those who remember, this case involved an experiment made in 1989 where two researchers claimed to have achieved cold fusion using palladium rods and heavy water. Initially, the scientific community treated the news with exciteent and interest, but after numerous labs were unable to reproduce their experiment, and a number of false positives were reported, their claims were officially debunked and they relocated their lab to avoid any further controversy.

At the same time, however, one must remember that some significant changes have happened in the past three decades. For one, NASA’s LENR facility has been working on producing cold fusion reactions for some time using an oscillating nickel lattice and hydrogen atoms. Then there was the recent milestone produced by the National Ignition Facility in California, which produced the first fusion reaction using lasers that produced more energy than it required.

Who’s to say if this is the real deal? All that is known is that between this most recent claim, and ongoing experiments conducted by NASA and other research organizations to make LENR cold fusion happen, a revolution in clean energy is set to happen, and will most likely happen within our lifetimes.

Addendum: Just been informed by WordPress that this is my 1400th post! Woot-woot!

Sources: extremetech.com, ecat.com

Evidence for the Big Bang

planck-attnotated-580x372The Big Bang Theory has been the dominant cosmological model for over half a century. According to the theory, the universe was created approximately 14 billion years ago from an extremely hot, dense state and then began expanding rapidly. After the initial expansion, the Universe cooled and began to form various subatomic particles and basic elements. Giant clouds of these primordial elements later coalesced through gravity to form stars, galaxies, and eventually planets.

And while it has its detractors, most of whom subscribe to the alternate Steady State Theory – which claims that new matter is continuously created as the universe expands – it has come to represent the scientific consensus as to how the universe came to be. And as usual, my ol’ pal and mentor in all things digital, Fraser Cain, recently released a video with the help of Universe Today discussing the particulars of it.

big_bangAddressing the particulars of the Big Bang Theory, Cain lists the many contributions made over the past century that has led this so-called theory to become the scientific consensus has come to exist. They are, in a nutshell:

  1. Cosmic Expanion: In 1912, astronomer Vesto Slipher calculated the speed and distance of “spiral nebulae” (galaxies) by measuring the light coming from them. He determined most were moving away. In 1924, Edwin Hubble determined that these galaxies were outside the Milky Way. He postulates that the motion of galaxies away from our own indicates a common point of origin.
  2. Abundance of Elements: Immediately after the big bang, only hydrogen existed and compressed into a tiny area of space under incredible heat and pressure. Like a star, this turned hydrogen into helium and other basic elements. Looking out into the universe (and hence back in time) scientists have found that great distances, the ratios of hydrogen to basic elements is consistent with what is found in star’s interiors.
  3. Cosmic Microwave Background (CMB) Radiation: In the 1960’s, using a radiotelescope, Arno Penzias and Robert Wilson discovered a background radio emission coming from every direction in the sky, day or night. This was consistent with the Big Bang Theory, which predicted that after the Big Bang, there would have been a release of radiation which then expanded billions of light years in all directions and cooled to the point that it shifted to invisible, microwave radiation.
  4. Large Scale Structure: The formation of galaxies and the large-scale structure of the cosmos are very similar. This is consistent with belief that after the initial Big Bang, the matter created would have cooled and began to coalesce into large collections, which is what galaxies, local galactic groups, and super-clusters are.

These are the four pillars of the Big Bang Theory, but they are no means the only points in its favor. In addition, there are numerous observational clues, such as how we have yet to observe a stars in the universe older than 13 billion years old, and fluctuations in the CMB that indicate a lack of uniformity. On top of that, there is the ongoing research into the existence of Dark Matter and Dark Energy, which are sure to bear fruit in the near future if all goes well.

big_bang1In short, scientists have a pretty good idea of how the universe came to be and the evidence all seems to confirm it. And some mysteries remain, we can be relatively confident that ongoing experimentation and research will come up with new and creative ways to shed light on the final unknowns. Little reason then why the Big Bang Theory enjoys such widespread support, much like Evolution, Gravity, and General Relativity.

Be sure to check out the full video, and subscribe to Universe Today for additional informative videos, podcasts, and articles. As someone who used to write for them, I can tell you that it’s a pretty good time, and very enlightening!

NASA’s Cold Fusion Technology

cold_fusionIn 1989, two scientific researchers – Martin Fleischmann and Stanley Pons – announced the achievement of cold fusion. In a press release that garnered massive amounts of publicity, they stating that their experiment, involving a electrified palladium rod placed in a solution of heavy water, had succeeded in absorbing hydrogen and compressing it within the rod to the point that individual atoms began to fuse and helium was formed.

Naturally, other labs began to test their method and found that the same did not happen for them. With time, the experiment was revealed to be the result of a false positive as more and more labs claimed they unable to replicate the results. In the end, their announcement appeared premature and their claims unscientific. Still, the men never retracted their claim and moved their labs overseas.

NASA_coldfusionAnd interestingly enough, the declaration that they had achieved the dream of clean, abundant, cheap energy fueled the public’s imagination. Henceforth, the concept of cold fusion, as they had preached it, was featured in numerous movies and stories, even though it was now believed to be something of a pipe dream. And for some, the idea of the technology never died. Cold fusion remained a scientific dream similar to a Grand Unifying Theory or the elusive Higgs Boson.

One such organization is NASA, who continues work on this science through the development of their low-energy nuclear reaction (LENR) technology. It is their hope that one day the technology will be sophisticated enough to become commercially viable, making cold fusion reactors that could power everything  – from homes, to cars, to planes – a reality.

lner-nickel-hydrogen-latticeAnd unlike previous attempts that sought to harness basic fusion, the technology behind the LENR is really quite revolutionary. Rather than rely on strong nuclear forces to meld atoms and produce energy, LENR harnesses the power of weak nuclear force.

This is done by using an oscillating nickel lattice that takes in hydrogen atoms and then exchanges electrons with them. This has the effect of forming slow-moving neutrons which are absorbed, making the nickel unstable. To regain its stability, the nickel strips a neutron of its electron so that it becomes a proton — a reaction that turns the nickel into copper and creates a lot of energy in the process.

The big upside to this process is the fact that it produces zero ionizing radiation and zero radioactive waste, making it the safest and cleanest nuclear process to date. In addition, NASA claims that relying on reactors like these, it would only take 1% of the world’s nickle production to meet the world’s current energy needs, and at a quarter of the cost of dirtier fuels like coal. On top of that, they’ve also indicated that the same process can be done using a carbon lattice instead of nickel, making it even more versatile.

???????????????????????????????So the question remains, why isn’t every household running on a LENR reactor already? Well, two problems. For one, the amount of energy needed to get the ball rolling is quite high. Initially, the LENR requires a 5-30THz frequency burst of energy to make the nickel lattice begin oscillating, which is difficult to efficiently produce.

Second, other labs have experienced a few… uh, accidents… trying to reproduce the process, which included a few explosions and some melted windows. No deaths were reported, mind you, but it does demonstrate that the process can generate a LOT of power if not properly controlled.

Still, other means of generating electricity, such as nuclear fission, have experienced some bumps along the way (i.e. Chernobyl and Three Mile Island) and we still rely on them. And oil and coal are what we’ve come to think of as “dirty means” of generating power, meaning they cause tremendous amounts of pollution or can lead to environmental debacles, such as oil spills. And natural gas can only last so long. So realistically, there may be hope for LENR and cold fusion yet.

Fingers so very crossed! And be sure to check out NASA’s video explaining the process:


Source:
Extremetech.com