Nuclear battery for mobile phone,battery windows 7 gadget,sealed lead acid battery discharge,car battery size cross reference chart forms - For Begninners

28.11.2014
With recent news of the nuclear battery making steady progress it is worth considering them within the development of the pico projector. The benifits are clear – using the decay of radioactive substances an electrical current can be harvested at a standard, usable level that can maintained at a good standard for a huge length of time. With power becoming more and more important day by day inventions like the nuclear battery are becoming more important, a nuclear battery powered pico projector would definitely be invaluable, or a mobile phone you never have to charge? Couple the 10 year battery with the laser projector’s soon reaching uk stores and we could have some amazing gadgets!
They probably could power that stuff but as it stands youd end up with radiation posioning!
A new nuclear-powered, water-based battery may one day be used as a dependable power supply in vehicles, spacecraft, and other applications. Researchers working at the University of Missouri (MU) claim to have produced a prototype of a nuclear-powered, water-based battery that is said to be both longer-lasting and more efficient than current battery technologies and may eventually be used as a dependable power supply in vehicles, spacecraft, and other applications where longevity, reliability, and efficiency are paramount. Utilizing the radioactive isotope strontium-90 to enhance the electrochemical energy produced in a water-based solution, the researchers have incorporated a nanostructured titanium dioxide electrode acting as a catalyst for water decomposition.
As a result, when high-energy beta radiation passes through the platinum and the nanoporous titanium dioxide, electron-hole pairs are produced within the titanium dioxide, creating an electron flow and a resultant electric current. By no means the first-ever nuclear battery – the NanoTritium device from City Labs being one recent notable example – this is the first nuclear battery that has been produced to exploit the inherent advantages of radiolysis (water-splitting with radiation) to produce an electric current, at higher energy levels and lower temperatures than previously possible. As a result, whilst solar cells use a similar mechanism for the transference of energy via hole-electron pairs, very few free radicals are produced because the photon energies are principally in the visible spectrum and subsequently at lower levels of energy. Beta radiation produced by the strontium source, on the other hand, with its ability to enhance the chemical reactions involving free radicals at greater electron energy levels, is a much more efficient way to produce extremely long-lasting and reliable energy. Experts in nuclear physics at the University of Surrey have helped develop research toward a “nuclear battery,” which could revolutionize the concept of portable power by packing in up to a million times more energy compared to a conventional battery. A University of Surrey release reports that by capturing charged particles in a special storage ring the experts have solved a long-standing problem of how to understand the fundamental structure of an unstable isotope of bismuth, Bi-212, with potential far-reaching consequences. Catching the bismuth ions in a storage ring has enabled, for the first time, direct observation of the trapped energy state, resolving a previous inconsistency with theory.
Working at the GSI accelerator laboratory in Darmstadt, Germany, an international team of scientists has studied a long-lived excited state, or energy trap, associated with the isotope Bi-212. The bismuth ions were created by high-energy nuclear collisions and focused into the GSI storage ring, where individual ions were observed as they circulated for several minutes at a time.
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APPLICATIONS?Space applications: Unaffected by long period of darkness and radiation belts like Van-Allen belt. Yes, you can actually buy nuclear-powered batteries from online sellers in China for a whopping $2720.
The battery is thumb-sized and designed for small devices, like pacemakers, sensors, and implants.
China, Science, Technology .You can leave a response.


This empty canister is clearly marked with stamped lettering indicating it is a plutonium battery containing "less than 3 curies" (which is a lot) of plutonium-238 in 1973. I'm told that plutonium batteries were used in pacemakers and that a number still remain implanted in living people.
I was just browsing your periodic table site researching plutonium batteries for a project and I came across your reference to plutonium powered pacemakers. Andrew Hansen.Naturally I responded by asking if he knew where I might get a hold of one, and whether he knew if people were actually buried with them. When patients reach the end of their lives the first thing they do is stop coming to their routine follow up checks (usually done every 12 months) and so the only people who know anything about what is in them lose contact. When the patient finally dies the mortician may look for and explant a pacemaker - they're easy to see as they are implanted between the skin and the muscle in the upper chest just under one of the collar bones - but if the family plan to bury rather than cremate then the mortician may not bother. Pacemakers must be explanted for cremation as a lithium iodine cell has a lot of really powerful chemistry in it - usually 1.2Ahr with a rundown curve that stays flat at the nominal voltage for 90% of its working life before a rapid rundown.
So you can see that it all hinges on the mortician and companies and other health care workers generally have very little contact with them so they have no idea what to do or what to look for. Well, all I can say is, if you're a mortician and you've got any "explanted" pacemakers in your desk drawer, please check them for radiation symbols. Since 1950s, radiation powered battery technology has been studied as an energy source and this field of study is called “Betavoltaics”. Scientists at University of Missouri (MU) have developed new nuclear powered, water based battery which is both longer lasting and more efficient than the current battery technologies. They utilized the radioactive isotope strontium-90 which enhances the electro-chemical energy produced in a water-based solution.
The nuclear powered battery was made possible because of the fact that high energy beta radiation produces free radicals of water in a way that kinetic energy is trapped in water molecules. Solar cells use a similar mechanism but the free radicals produced are very few because the photon energies are at lower levels.
The water based nuclear battery offers a more viable alternative to the solar cells as a sustainable, low-pollution energy source. BBC showed on thursday that the University of Missouri team have managed to create a nuclear battery that holds 1million times the charge as a a standard battery of similar weight and size.
Concerns about instability are quickly cleared when you hear that a nuclear battery can continue to operate at a standard voltage like a normal battery, but potentially non stop from 10 – 100 years. That is, the catalyst assists the breakdown of water in conjunction with the applied radiation into assorted oxygen compounds.
And at much greater claimed efficiencies than other water-splitting energy production techniques. So much so, that the water-based nuclear battery may well offer a viable alternative to the solar cell as a sustainable, low-pollution energy source. Professor Phil Walker, of the University’s Department of Physics, said: “The new understanding gives us confidence in the nuclear theory, which guides us to the next step of experimentation. Now, the theory can be used reliably to predict other properties of this isotope, and this suggests possible ways to release the trapped energy — which would be a key to unlocking the nuclear battery concept.


This capability — observing individual charged atoms over extended periods of time — is world-wide unique to the GSI storage ring, and is opening up a range of scientific investigations into the fundamental properties of materials. While scientists are finding ways to make them smaller but even more powerful, problems can arise when these batteries are much larger and heavier than the devices themselves. David Robertson, chemistry professor and associate director of the MU Research Reactor, and is working to build and test the battery at the facility. It's purported to last for 20-years without needing to be recharged and is made from nano-tritium.
Apparently, nano-tritium based batteries can already be found in signs, watches, and some types of glow sticks. Nuclear technologies are not dangerous if used in controlled way such as fire detectors in bedrooms. The researchers have also used a nano-structured titanium dioxide electrode as a catalyst which in union with applied radiation assists in the breakdown of water into mixed oxygen compounds. Kwon, of the College of Engineering at MU says, “Water acts as a buffer and surface plasmons created in the device turned out to be very useful in increasing its efficiency. On the other hand, beta radiations from strontium source involve free radicals at greater electron energy levels. Yes you read that correctly, nuclear batteries in your laptop or micro projector would mean you could turn it on now, and leave your device on non stop for 10 years without recharging, turning off, hibernating – nothing – just repeat use for at least ten years! University of Missouri researchers are developing a nuclear energy source that is smaller, lighter and more efficient.
In the future, they hope to increase the battery’s power, shrink its size and try with various other materials.
Researchers say that the amount of tritium extracted from 1L of sea water can release the energy equivalent of 300L of gasoline in one complete nuclear fusion. Researchers have now used controlled nuclear power to prototype a dependable power supply for vehicles, spacecraft and other applications where longevity, reliability, and efficiency are main concern. Hence, when high-energy beta radiations are passed through, electron-hole pairs are produced which creates an electron flow and a resultant electric current.
The sceptics out there instantly hear this and start talking about nuclear contamination and the negative side effects. Despite the nuclear battery being developed since the 1970’s it does still not fully satisfy radiation concerns.
Without a doubt there are issues that need addressing to do with the radiation given out by these nuclear batteries, but this is definitely a power source worth investigating.
Today's devices use either lithium iodine or lithium monofluride batteries and last around 8 years. That means that by the time your battery runs out your device has been superseded at least 3 times.



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Comments Nuclear battery for mobile phone

  1. PUBLIC_ENEMY
    Completely covered with lead sulfate (sulfation) and the acid, not to mention the injury incurred by a liquid.
  2. KURTOY_PAREN
    That you no longer need to worry about unplugging your right, your car won't fully discharged.
  3. NIGHT_HUNTER
    Silonoid clicks when I try to plug anything.
  4. PLAGIAT_EMINEM
    Resolution process, and added Sections 14, 15, 20 battery, providing good overall.
  5. pearl_girl
    For when the with a LED.