Title :
Evaluation of motions and actuation methods for biomechanical energy harvesting
Author :
Niu, Penglin ; Chapman, Patrick ; Riemer, Raziel ; Zhang, Xudong
Author_Institution :
Dept. of Electr. & Comput. Eng., Illinois Univ., Urbana, IL, USA
Abstract :
This paper addresses energy harvesting from biomechanical motions. Such a technique is useful for powering small portable devices, such as wireless phones, music players, and digital assistants. For very low power devices, biomechanical energy may be enough to provide baseload power. In others, such as cell phones (which typically requires up to 3 W), biomechanical energy would recharge batteries for extended use between line charges, or allow for peak just-in-time power. In this paper, we consider several biomechanical motions for power generation. We evaluate actuation methods, including magnetic, piezoelectric, electrostatic, and electrical polymers for various motions in terms of energy, power, mass, and cost. We also discuss the practical issues associated with each, especially in terms of the power electronics required to connect the biomechanical sources to useful loads.
Keywords :
biomechanics; direct energy conversion; electrostatics; magnetic materials; piezoelectric materials; power electronics; actuation methods; baseload power; biomechanical energy harvesting; biomechanical motions; cellular phones; digital assistants; electrical polymers; electroactivity; electrostatic polymers; energy conversion; magnetic polymers; motion evaluations; music players; piezoelectric polymers; power electronics; power generation; wireless phones; Batteries; Electrostatics; Energy conversion; Humans; Legged locomotion; Motion estimation; Polymers; Potential energy; Power conversion; Power generation;
Conference_Titel :
Power Electronics Specialists Conference, 2004. PESC 04. 2004 IEEE 35th Annual
Print_ISBN :
0-7803-8399-0
DOI :
10.1109/PESC.2004.1355442
