Slashdot Mirror

← Back to Stories (view on slashdot.org)

MIT Produces Electricity Using Thermopower Waves

Posted by Soulskill on from the set-on-fire-to-begin-current-flow dept.

MikeChino writes "MIT scientists have discovered a never-before-known phenomenon wherein carbon nanotubes can be used to harness energy from 'thermopower waves.' To do this they coated the nanotubes with a reactive fuel and then lit one end, causing a fast-moving thermal wave to speed down the length of the tube. The heat from the fuel rises to a temperature of 3,000 kelvins, and can speed along the tube 10,000 times faster than the normal spread of this chemical reaction. The heat also pushes electrons down the tube, which creates a substantial electrical current. The system can output energy (in proportion to its weight) about 100x greater than an equivalent weight lithium-ion battery, and according to MIT the discovery 'opens up a new area of energy research, which is rare.'"

2 of 157 comments (clear)

  1. Re:That's some hot stuff... by jellomizer · · Score: 4, Informative

    For some perspective that is about the heat that a filament in a lightbulb is at.

    --
    If something is so important that you feel the need to post it on the internet... It probably isn't that important.
  2. Link to the Nature Materials article by reverseengineer · · Score: 4, Informative
    The orignal article may be found here- subscription to Nature Materials or payment required for full text. Abstract:

    Theoretical calculations predict that by coupling an exothermic chemical reaction with a nanotube or nanowire possessing a high axial thermal conductivity, a self-propagating reactive wave can be driven along its length. Herein, such waves are realized using a 7-nm cyclotrimethylene trinitramine annular shell around a multiwalled carbon nanotube and are amplified by more than 104 times the bulk value, propagating faster than 2 m s-1, with an effective thermal conductivity of 1.28±0.2kWm-1K-1 at 2,860K. This wave produces a concomitant electrical pulse of disproportionately high specific power, as large as 7kW kg-1, which we identify as a thermopower wave. Thermally excited carriers flow in the direction of the propagating reaction with a specific power that scales inversely with system size. The reaction also evolves an anisotropic pressure wave of high total impulse per mass (300 N s kg-1). Such waves of high power density may find uses as unique energy sources.

    The "fuel" used, cyclotrimethylene trinitramine, may be better known as the explosive RDX.

    --
    "FDA staff reviewers expressed concern about the number of patients who were left out of the study because they died."