By Hyunuk Kim, Yonas Tadesse, Shashank Priya (auth.), Shashank Priya, Daniel J. Inman (eds.)
Energy Harvesting Technologies presents a cohesive review of the basics and present advancements within the box of power harvesting. In a well-organized constitution, this quantity discusses easy rules for the layout and fabrication of bulk and micro-scale power harvesting platforms established upon piezoelectric, electromagnetic and thermoelectric applied sciences. It offers first-class assurance of concept and layout ideas required for fabrication of effective electronics and batteries. additionally, it covers the famous functions for power harvesting units illustrating the cutting-edge prototypes.
Combining prime researchers from either academia and onto a unmarried platform, Energy Harvesting Technologies serves as a huge reference for researchers, engineers, and scholars concerned with energy assets, sensor networks and clever materials.
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Additional resources for Energy Harvesting Technologies
Ultrason. Ferroelectr. Freq. Control 52: 584–595. , Lancaster, PA. Islam, RA, Priya, S (2006a) Realization of high-energy density polycrystalline piezoelectric ceramics. Appl. Phys. Lett. 88: 032903. Islam, RA, Priya, S (2006b) High energy density composition in the system PZT – PZNN. J. Amer. Ceram. Soc. 89: 3147–3156. Jia, Y, Or, SW, et al. (2006) Converse magnetoelectric effect in laminated composites of PMN–PT single crystal and Terfenol-D alloy. Appl. Phys. Lett. 88: 242902. Kim, H, Priya, S, Stephanou, H, and Uchino, K (2007) Consideration of impedance matching techniques for efficient piezoelectric energy harvesting.
It does not restrict any particular ceramic composition. MFCs can be operated in either d33 - or d31 -modes by designing two different electrode patterns. MFC operating in d33 -mode has higher energy conversion rate but lower electrical current when compared with d31 -mode. These transducers have been shown to have reliability of above 109 cycles operating at maximum strain (Fig. 10). The energy harvesting tests conducted on two kinds of MFCs have shown that: r r r d33 effect is less suitable for energy harvesting due to lower charge output electric charge generated is proportional to strain and frequency, and low strain, high frequency (>20 Hz) is suitable for continuous charge generation 1 Piezoelectric Energy Harvesting 21 Fig.
Actuators A 116: 461–471. Priya, S (2005) Modeling of electric energy harvesting using piezoelectric windmill. Appl. Phys. Lett. 87: 184101. Priya, S (2007) Advances in energy harvesting using low profile piezoelectric transducers. J. Electroceram. 19:165–182. Priya, S, Popa, D, and Lewis, F (2006) Energy efficient mobile wireless sensor networks. ASME Congress 2006, Nov. 5–10, Chicago, Illinois, IMECE2006-14078. Priya, S, Viehland, D, Carazo, AV, Ryu, J, and Uchino, K, (2001) J. Appl. Phys. 90: 1469.