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The group describes the technology in Applied Physics Letters, from AIP Publishing. An energy harvester is attached to the wearer's knee and can generate 1.6 microwatts of power while the wearer walks without any increase in effort. The energy is enough to power small electronics like health monitoring equipment and GPS devices.
"Self-powered GPS devices will attract the attention of climbers and mountaineers," said author Wei-Hsin Liao, professor in the department of mechanical and automation engineering.
The researchers used a special smart macrofiber material, which generates energy from any sort of bending it experiences, to create a slider-crank mechanism -- similar to what drives a motor. The authors chose to attach the device to the knee due to the knee joint's large range of motion, compared to most other human joints. "These harvesters can harvest energy directly from large deformations," Liao said.
Due to the continuous back-and-forth the material will encounter when the wearer walks, every time the knee flexes, the device bends and generates electricity. This means the harvester can "capture biomechanical energy through the natural motion of the human knee," according to Liao. Previous wearable energy harvesters took advantage of the vibration caused in the device as a result of motion, which comes with drawbacks regarding efficiency.
"The frequency of human walking is quite slow, which significantly decreases the energy-harvesting capability," Liao said. Because the group's device uses a different method, it bypasses this limitation.
The prototype weighs only 307 grams (0.68 pounds) and was tested on human subjects walking at speeds from 2 to 6.5 kilometers per hour (about 1 to 4 miles per hour). The researchers compared the wearers' breathing patterns with and without the device and determined that the energy required to walk was unchanged, meaning that the device is generating power at no cost to the human.
[...] The article, "Macro fiber composite-based energy harvester for human knee," is authored by Fei Gao, Gaoyu Liu, Brendon Lik Hang Chung, Hugo H. Chan and Wei-Hsin Liao. The article appeared in Applied Physics Letters on July 16, 2019 (DOI: 10.1063/1.5098962) and can be accessed at http://aip.scitation.org/doi/full/10.1063/1.5098962.
(Score: 2) by JoeMerchant on Sunday July 21 2019, @04:18PM (1 child)
I'm going to notice the #$)*( thing when it's just sitting there attached to me, much more so as I walk and it tugs at my skin and/or prevents my sweat from evaporating at the interfaces.
I may not notice the effort required to bend it, but it will take strong glue to keep me from unconsciously clawing it off of my body.
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(Score: 2) by JoeMerchant on Sunday July 21 2019, @06:40PM
Above was written before 1.6 microwatts was processed.... yeah, 1.6 microwatts, weighs 300gm, um... who cares?
A 1cm x 1cm solar cell should be good for 16 milliwats in full sun (a full 1m x 1m solar panel nets 160W), 1/1000th of that?
TFS should have lead with something from the vanishing significance dept.
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