Steve Krause

Follow Up: Harvesting Power from Human Motion at Large Scale

Last year, I speculated about whether it would be possible to harvest power from human motion on a large scale. “On a large scale” was the key part, since devices already exist to harvest power on a small scale, such as combat boots that generate a small amount of power while the wearer walks. To provide a contrasting example, I asked whether one could harvest the vibrational motion of a highway overpass as vehicles passed over.

Lately, architect Claire Price has been in the news with plans to try something along these lines. Here are a few excerpts from a recent BBC article by her:

Reading this, your body at rest is emitting about 100 watts into the environment. If you’re sitting in an open plan office, count the number of surrounding colleagues and you don’t need to be a maths genius to appreciate the possibilities of tapping into all that wasted energy…

“[H]eel-strike” generators, powered through the pumping motion of a footstep, can be embedded within a boot heel. These devices currently achieve upwards of 3 - 6 watts of power output. So the 34,000 commuters who pass through Victoria underground station at rush hour, for example, could theoretically generate enough energy to power 6,500 LED light fittings - energy that today is disappearing into the ground…

Elsewhere in the world, researchers are also looking into how energy harvesting devices can be embedded within roads or how they can be used to create a self-powering heart pacemaker or even an artificial limb…

We [Price’s UK-based firm, The Facility Architects] are applying and testing our ideas practically within a building project within the next year, including a sprung floor fitted with heel-strike generations to harvest the energy from people walking across it. This power output will then be wired back to provide the lighting within that building.

We also plan an LED light fitting with its own micro generator. This unit will convert vibrations from passing trains, lorries or planes to provide continuous light without the need for wiring into the grid.

As of last year, I was unable to find anything on the large-scale version of harvesting power from human motion. So I’m glad that whatever work was/is being done is now in the spotlight.

I hope it succeeds.

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