Avalanche Energy's Suitcase Size Fusion System

  • To me this device looks and sounds like another version of the Farnsworth Fusor. What do you think?


    This tiny fusion reactor is made out of commercially available parts
    Nuclear startup Avalanche Energy has modest funding, a skeleton crew, a pocket-sized prototype — and grand ambitions.
    www.canarymedia.com


    For more than 70 years, governments, oil and gas companies, and entrepreneurs have dreamed of harvesting energy from the nuclear fusion reaction. But while nuclear fission plants have been providing electricity around the world since the 1950s, nuclear fusion has never come to fruition.

    Nevertheless, fusion has been having its moment of late. A year ago, Canary Media reported that scores of VCs, billionaires and celebrities had become smitten with fusion energy and were spending money like drunken fusion scientists on an energy source that still exists only in science-fiction novels.

    Since then, the trend has only accelerated. More than $4 billion in private capital has flowed into fusion research in the last few years.

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    One of the beneficiaries of this bonanza, Avalanche Energy, is hoping to succeed where others have failed with a capital-efficient, downsized approach to generating electricity from fusion. The Seattle-based fusion energy startup plans to use an unconventional electrostatic approach to scale its modular fusion cell down to the size of a fire extinguisher.


    Getting small

    To achieve fusion, hydrogen must be converted into plasma, a transformation that requires million-degree temperatures, much hotter than even the core of the sun. In the medium of the plasma, negatively charged electrons separate from positively charged atomic nuclei.

    Fusion machines compress and confine the plasma in order to push the freed-up nuclei so close together that they overcome repellant electrostatic forces and ultimately fuse. This process releases neutrons, and it’s this energy that scientists dream of harvesting to do things like drive a conventional turbine. The problem is that more energy is required to catalyze fusion than results from the process — a lot more. The holy grail everyone is seeking is a process that creates more energy than is needed to power it, also called net energy or positive output.

    A lot of the fusion teams making a run at this most difficult of physics problems work on a grand scale that requires giant lasers or massive magnets made of exotic materials, not to mention sky-high stacks of cash and plenty of personnel. Magnetic confinement devices such as tokamaks require major real estate — Europe’s International Thermonuclear Experimental Reactor project takes up nearly 450 acres.

    In sharp contrast, Avalanche’s small-scale modular approach is more akin to Tesla’s electric-vehicle battery design, co-founder and CEO Robin Langtry told Canary Media in an interview. “It’s hundreds of little cells that we can mass-produce in a giga-fusion factory. You might need a few of them for a car, a dozen for a bus, maybe 100 for an airplane.”


    Man in coat and knitted beanie stands at a work table strewn with mechanical devices and cordsHoney, I shrunk the tokamak: An employee tests Avalanche's small-scale fusion reactor prototype. (Avalanche Energy)

  • The engine should be as simple as a bicycle....

    Нефть - это кровь планеты, надо сделать модель планеты и мы получим генератор Тарасенко, эта энергия покорит вселенную! :lenr:

  • Looks like a Farnsworth variety fusor to me too, there must be a new twist. These young guys are always coming up with something new, perhaps taking Langmuir to a new level?


    Please! Scientific accuracy and precision is important. The statement "To achieve fusion, hydrogen must be converted into plasma" might apply to the Avalanche Energy design but is certainly not a universal constraint. Fusion can occur without hydrogen. Perhaps a more accurate statement would be "Our fusor uses a hydrogen plasma.". Or perhaps it uses a hydrogen-deuterium plasma.