Vibration energy harvesting from random force and motion excitations

Smart Materials and Structures

Volumn 21, Issue 7, 2012, Pages

  Tang, Xiudong ^a   Zuo, Lei ^a  

^a Stony Brook University   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

BUILDING MASS; CLOSED-FORM EXPRESSION; DAMPING COEFFICIENTS; ENERGY TRANSDUCERS; HARMONIC VIBRATION; MECHANICAL DAMPING; OUTPUT POWER; RANDOM EXCITATIONS; RANDOM VELOCITY; RESIDUE THEOREM; ROAD IRREGULARITIES; SPRING-MASS SYSTEM; SUSPENSION STIFFNESS; TIRE STIFFNESS; TUNED MASS DAMPERS; VERTICAL EXCITATION; VIBRATION ENERGIES; VIBRATION ENERGY HARVESTING; WIND FORCES;

DAMPING; ENERGY HARVESTING; EXCITED STATES; HARVESTING; OPTIMIZATION; ROADS AND STREETS; TRANSDUCERS; VEHICLE SUSPENSIONS;

VIBRATIONS (MECHANICAL);

EID: 84863708635     PISSN: 09641726     EISSN: 1361665X     Source Type: Journal    
DOI: 10.1088/0964-1726/21/7/075025     Document Type: Article

References (39)

1. Sodano H A and Inman D J 2004 A review of power harvesting from vibration using piezoelectric materials Shock Vib. Dig. 36 197-205
2. Collins L 2006 Harvesting for the world: energy harvesting techniques IEEE Power Eng. 20 34-7
3. Park G, Rosing T, Todd M D, Farrar C R and Hodgkiss W 2008 Energy harvesting for structural health monitoring sensor networks ASCE J. Infrastruct. Syst. 14 64-79
4. Tang X and Zuo L 2009 Towards MESO and macro scale energy harvesting of vibration Proc. 2009 ASME Int. Mechanical Engineering Congress and Exposition (Florida,)
5. Paradiso J and Starner T 2005 Energy scavenging for mobile and wireless electronics IEEE Pervasive Comput. 4 18-26
6. Kawamoto Y, Suda Y, Inoue H and Kondo T 2008 Electro-mechanical suspension system considering energy consumption and vehicle manoeuvre Veh. Syst. Dyn. 46 1053-63
7. Zuo L, Scully B, Shetani J and Zhou Y 2010 Design and characterization of an electromagnetic energy harvester for vehicle suspensions Smart Mater. Struct. 19 045003
8. Scruggs J T and Iwan W D 2005 Structural control with regenerative force actuation networks Struct. Control Health Monit. 50 25-45
9. Ni T, Zuo L and Kareem A 2011 Assessment of energy potential and vibration mitigation of regenerative tuned mass dampers on wind excited tall buildings ASME Design Engineering Technical Conf. (Washington DC, 28-31 Aug. 2011,)
10. Tang X and Zuo L 2010 Self-powered active control of structures with TMDs IMAC XXVIII Conf. and Exposition on Structural Dynamics: Structural Dynamics and Renewable Energy (Florida,)
11. Tang X and Zuo L 2010 Regenerative semi-active control of tall building vibration with series TMDs Proc. America Control Conf. (Baltimore, MD, June 30-July 2)
12. Stephen N G 2006 On energy harvesting from ambient vibration J. Sound Vib. 293 409-25
13. Kim H, Priya S, Stephanou H and Uchino K 2007 Consideration of impedance matching techniques for efficient piezoelectric energy harvesting IEEE Trans. Ultrason. Ferroelectr. Freq. Control 22 1851-9
14. Lallart M, Garbuio L, Petit L, Richard C and Guyomar D 2008 Double synchronized switch harvesting(DSSH): a new energy harvesting scheme for efficient energy extraction IEEE Trans. Ultrason. Ferroelectr. Freq. Control 55 2119-30
15. Antaki J F, Bertocci E, Green E C, Nadeem A, Rintoul T, Kormos R and Griffith B P 1995 A gait-powered autologous battery charging system for artificial organs ASAIO J. 41 M588-95
16. Li Q, Naing V, Hoffer J A, Weber D J, Kuo A D and Donelan J M 2008 Biomechanical energy harvesting: apparatus and method 2008 IEEE Int. Conf. on Robotics and Automation pp 3672-7
17. Cassidy I L, Scruggs J T and Behrens S 2011 Design of electromagnetic energy harvesters for large-scale structural vibration applications Proc. SPIE: Smart Structures and Materials
18. Wong Z J, Yan J, Soga K and Seshia A A 2009 A multi-degree-of-freedom electrostatic MEMS power harvester PowerMEMS 2009: 9th Int. Workshop on Micro- and Nanotechnology for Power Generation and Energy Conversion Applications (Washington, DC,)
19. Aldraihem O and Baz A 2011 Energy harvester with a dynamic magnifier J. Intell. Mater. Syst. Struct. 13 521-30
20. Arafa M, Akl W, Aladwani A, Aldraihem O and Baz A 2011 Experimental implementation of a cantilevered piezoelectric energy harvester with a dynamic magnifier Smart Structures Conf. (San Diego, CA, March)
21. Kim J, Cottone F, Goyal S and Punch J 2010 Energy scavenging for energy efficiency in networks and applications Bell Labs Tech. J. 15 7-29
22. Tang X and Zuo L 2011 Enhanced vibration energy harvesting using dual-mass systems J. Sound Vib. 330 5199-209
23. Ma P, Kim J and Kim Y 2010 Power-amplifying strategy in vibration-powered energy harvesters Proc. SPIE 7643 76430O
24. Lee S, Youn B and Jung B 2009 Robust segment-type energy harvester and its application to wireless sensor Smart Mater. Struct. 18 095021
25. Zhou W, Penamalli G R and Zuo L 2012 Efficient vibration energy harvester with multi-mode dynamic magnifier Smart Mater. Struct. 21 015014
26. Wei M, Pasquale G D, Wang J and Somà A 2009 Capacitively- transduced mechanically-coupled bandpass filter in electroplated nickel for energy harvesting form ambient vibrations Proc. Power MEMS pp 213-6
27. Erturk A, Hoffmann J and Inman D J 2009 A piezomagnetoelastic structure for broadband vibration energy harvesting Appl. Phys. Lett. 94 254102
28. Ali S F, Adhikari S, Friswell M I and Narayanan S 2011 The analysis of piezo magnetoelastic energy harvesters under broadband random excitations J. Appl. Phys. 109 074904
29. Zhang P 2011 Design of electromagnetic regenerative shock absorber for energy harvesting from vehicle suspensions Master Thesis State University of New York at Stony Brook
30. Zuo L and Zhang P 2011 Energy, ride comfort, and road handling of regenerative vehicle suspensions ASME Dynamic Systems and Control Conf. (Arlington, VA, 31 Oct.-2 Nov. 2011,)
31. Smith M and Swift S 2010 Power dissipation in automotive suspensions Veh. Syst. Dyn. 49 59-74
32. 2 optimization of vehicle suspension based on multi wheel model Veh. Syst. Dyn. 40 351-71
33. Ottman G K, Hofmann H F and Lesieutre G A 2003 Optimized piezoelectric energy harvesting circuit using step-down converter in discontinuous conduction mode IEEE Trans. Power Electron. 18 696-703
34. Zuo L and Tang X 2009 Circuit optimization and vibration analysis of electromagnetic energy harvesting systems Proc. 2009 ASME Design Engineering Technical Conf. (San Diego,)
35. Zhou K, Doyle J C and Glover K 1995 Robust and Optimal Control (Englewood Cliffs, NJ: Prentice-Hall)
36. Gradshtenyn I S and Ryzhik I M 1994 Table of Integrals Series, and Products (New York: Academic)
37. Den Hartog J P 1947 Mechanical Vibration (New York: McGraw-Hill)
38. Joseph L, Poon D and Sbieb S 2006 Ingredients of high-rise design Technical Report
39. Halvorsen E 2008 Energy harvesters driven by broadband random vibrations J. Microelectromech. Syst. 17 1061-71