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Temperature-driven clock sparks new kind of generator

Inspired by a 1920s clock that harnessed changes in the volume of a gas as it heats and cools, researchers may be able to power sensors cheaply for decades
Bellows with potential
Bellows with potential
(Image: University of Washington)

A device that harvests electricity from tiny changes in air temperature could power the sensors of the future.

and colleagues at the University of Washington in Seattle filled a small bellows with chloroethane gas, which expands and contracts a great deal for small temperature fluctuations. The resulting movement of the bellows in turn moves a magnet inside a coil, producing a current.

The team found that for just a 0.25 °C change in temperature they were able to generate enough juice to .

The Washington team were inspired to develop their harvester after reading about the developed by Swiss inventor Jean-Léon Reutter in 1928. The clock had bellows filled with chloroethane, and an attached mechanism that wound the clock’s mainspring. Changes in ambient temperature of just 1 °C were enough to keep the clock going for two days.

The team is now attempting to improve the power output and shrink the device to the size of a D-cell battery. Zhao says the device could work continuously for decades without maintenance, making it ideal for powering hard-to-reach sensors, such as those monitoring pipes for leaks, or for indoor positioning beacons. Zhao presented the work this week at the in Seattle.

Topics: Electricity / Energy and fuels / Temperature