In this study, a harvesting device embedded into a suspended backpack was developed to harness part of a human's biomechanical energy and reduce dynamic force of the backpack on the carrier. The harvester utilized a spring mass damping system to translate the human body's vertical movement during walking into the rotation of a gear train, which then drives rotary generators to produce electricity. A prototype was built to examine the theoretical study, which showed that the experimental tests agreed with the simulation. Compared with previous work, the harvester in this work had a 40% higher harvesting energy efficiency.
Issue Section:
Technical Brief
References
1.
Starner
, T.
, and Paradiso
, J.
, 2004
, Low-Power Electronics Design
, CRC Press
, Boca Raton, FL
, Chap. 45.2.
Stephen
, N.
, 2006
, “On Energy Harvesting From Ambient Vibration
,” J. Sound Vib.
, 293
(1–2
), pp. 409
–425
.10.1016/j.jsv.2005.10.0033.
Castagnetti
, D.
, 2011
, “Fractal-Inspired Multifrequency Structures for Piezoelectric Harvesting of Ambient Kinetic Energy
,” ASME J. Mech. Des.
, 133
(11
), p. 111005
.10.1115/1.40049844.
Landsberg
, P.
, and Badescu
, V.
, 1998
, “Solar Energy Conversion: List of Efficiencies and Some Theoretical Considerations
,” Prog. Quantum Electron.
, 22
(4
), pp. 211
–230
.10.1016/S0079-6727(98)00012-35.
Shenck
, N.
, and Paradiso
, J.
, 2001
, “Energy Scavenging With Shoe-Mounted Piezoelectrics
,” IEEE Micro
, 21
(3
), pp. 30
–42
.10.1109/40.9287636.
Rome
, L.
, Flynn
, L.
, Goldman
, E. M.
, and Yoo
, T. D.
, 2005
, “Generating Electricity While Walking With Loads
,” Science
, 309
(5741
), pp. 1725
–1728
.10.1126/science.11110637.
Donelan
, J. M.
, Naing
, V.
, Hoffer
, J. A.
, Weber
, D. J.
, and Kuo
, A. D.
, 2008
, “Biomechanical Energy Harvesting: Generating Electricity During Walking With Minimal User Effort
,” Science
, 319
(5864
), pp. 807
–810
.10.1126/science.11498608.
Lee
, S.
, and Tovar
, A.
, 2013
, “Topology Optimization of Piezoelectric Energy Harvesting Skin Using Hybrid Cellular Automata
,” ASME J. Mech. Des.
, 135
(3
), p. 031001
.10.1115/1.40233229.
Xie
, L.
, Menet
, C. G.
, Ching
, H.
, and Du
, R.
, 2009
, “The Automatic Winding Device of a Mechanical Watch Movement and Its Application in Energy Harvesting
,” ASME J. Mech. Des.
, 131
(7
), p. 071005
.10.1115/1.3151803Copyright © 2015 by ASME
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