Energy harvesting from train-induced response in bridges

Journal of Bridge Engineering

Volumn 19, Issue 9, 2014, Pages

  Cahill, Paul ^a   Nuallain, Nora Aine Ni ^b   Jackson, Nathan ^c   Mathewson, Alan ^c   Karoumi, Raid ^d   Pakrashi, Vikram ^a  

^a UNIVERSITY COLLEGE CORK   (Ireland)

^b TRINITY COLLEGE DUBLIN   (Ireland)

^c UNIVERSITY COLLEGE CORK   (Ireland)

^d ROYAL INSTITUTE OF TECHNOLOGY   (Sweden)

Author keywords

Bridges; Energy methods; Monitoring; Smart materials

Indexed keywords

BRIDGES; DYNAMIC RESPONSE; INTELLIGENT MATERIALS; MONITORING; STRUCTURAL HEALTH MONITORING;

AMBIENT VIBRATIONS; DAMAGE CALIBRATIONS; ENERGY METHOD; ENERGY-HARVESTING SYSTEMS; EXPERIMENTAL ANALYSIS; STRUCTURAL HEALTH MONITORING (SHM); TRAIN-BRIDGE INTERACTION; WIRELESS DEVICES;

ENERGY HARVESTING;

EID: 84906253246     PISSN: 10840702     EISSN: None     Source Type: Journal    
DOI: 10.1061/(ASCE)BE.1943-5592.0000608     Document Type: Article

References (59)

1. Ajitsaria, J., Choe, S. Y., Shen, D., and, Kim, D. J. (2007). " Modeling and analysis of a bimorph piezoelectric cantilever beam for voltage generation." Smart Mater. Struct., 16 (2), 447-454. 10.1088/0964-1726/16/2/ 024
2. Ali, S. F., Friswell, M. I., and, Adhikari, S. (2010). " Piezoelectric energy harvesting with parametric uncertainty." Smart Mater. Struct., 19 (10), 105010.
3. Ali, S. F., Friswell, M. I., and, Adhikari, S. (2011). " Analysis of energy harvesters for highway bridges." J. Intell. Mater. Syst. Struct., 22 (16), 1929-1938. 10.1177/1045389X11417650
4. Anton, S. R., and, Sodano, H. A. (2007). " A review of power harvesting using piezoelectric materials (2003-2006)." Smart Mater. Struct., 16 (3), R1-R21. 10.1088/0964-1726/16/3/R01
5. Beeby, S. P., Tudor, M. J., and, White, N. M. (2006). " Energy harvesting vibration sources for microsystems applications." Meas. Sci. Technol., 17 (12), R175-R195. 10.1088/0957-0233/17/12/R01
6. Brady, S. P., and, O'Brien, E. J. (2006). " Effect of vehicle velocity on the dynamic amplification of two vehicles crossing a simply supported bridge." J. Bridge Eng., 10.1061/(ASCE)1084-0702(2006)11:2(250), 250-256.
7. Brady, S. P., O'Brien, E. J., and, Žnidarič, A. (2006). " Effect of vehicle velocity on the dynamic amplification of a vehicle crossing a simply supported bridge." J. Bridge Eng., 10.1061/(ASCE)1084- 0702(2006)11:2(241), 241-249.
8. Brincker, R., Ventura, C. E., and, Anderson, P. (2003). " Why output-only modal testing is a desirable tool for a wide range of practical applications." Proc., IMAC-21, Society for Experimental Mechanics, Bethel, CT, 265-272.
9. Catbas, F. N., Gul, M., and, Burkett, J. L. (2008). " Damage assessment using flexibility and flexibility-based curvature for structural health monitoring." Smart Mater. Struct., 17 (1), 015024. 10.1088/0964-1726/17/01/015024
10. Chang, C. C., Flatau, A., and, Liu, S. C. (2003). " Review paper: Health monitoring of civil infrastructure." Struct. Health Monit., 2 (3), 257-267. 10.1177/1475921703036169
11. Cook-Chennault, K. A., Thambi, N., and, Sastry, A. M. (2008). " Powering MEMS portable devices-A review of non-regenerative and regenerative power supply systems with special emphasis on piezoelectric energy harvesting systems." Smart Mater. Struct., 17 (4), 043001. 10.1088/0964-1726/17/4/ 043001
12. Erturk, A. (2011). " Piezoelectric energy harvesting for civil infrastructure system applications: Moving loads and surface strain fluctuations." J. Intell. Mater. Syst. Struct., 22 (17), 1959-1973. 10.1177/1045389X11420593
13. Erturk, A., and, Inman, D. J. (2008). " On mechanical modelling of cantilever piezoelectric vibration energy harvesters." J. Intell. Mater. Syst. Struct., 19 (11), 1311-1325. 10.1177/1045389X07085639
14. Farrar, C. R., Park, G., Allen, D. W., and, Todd, M. D. (2006). " Sensor network paradigms for structural health monitoring." Struct. Contr. Health Monit., 13 (1), 210-225. 10.1002/stc.125
15. Fryba, L. (2001). " Rough assessment of railway bridges for high-speed trains." Eng. Struct., 23 (5), 548-556. 10.1016/S0141-0296(00) 00057-2
16. Gangone, M. V., and, Whelan, M. J. (2011). " Wireless monitoring of a multispan bridge superstructure for diagnostic load testing and system identification." Comput.-Aided Civ. Infrastruct. Eng., 26 (7), 560-579. 10.1111/j.1467-8667.2010.00711.x
17. Hagiwara, Y., Tanaka, M., and, Ueno, M. (2001). " Evaluation of advantages of high-speed EMU in the case of the Series 700 Shinkansen highspeed train with IGBT applied traction system." Proc., World Congress Railway Research (WCRR), Deutsche Bahn AG, Munich, Germany.
18. Harb, A. (2011). " Energy harvesting: State-of-the-art." Renew. Energy, 36 (10), 2641-2654. 10.1016/j.renene.2010.06.014
19. Jackson, N., O'Keefe, R., O'Neill, M., Waldron, F., and, Mathewson, A. (2013a). " CMOS compatible low-frequency aluminium nitride MEMS piezoelectric energy harvesting device." Proc., SPIE 8763, Smart Sensors. Actuators, MEMS, VI, Society of Photo-optical Instrumentation Engineers, Bellingham, WA, 87631I.
20. Jackson, N., O'Keeffe, R., Waldron, F., O'Neill, M., and, Mathewson, A. (2013b). " Influence of aluminium nitride crystal orientation on MEMS energy harvesting device performance." J. Micromech. Microeng., 23 (7), 075014.
21. Karoumi, R., Wiberg, J., and, Liljencrantz, A. (2005). " Monitoring traffic loads and dynamic effects using an instrumented railway bridge." Eng. Struct., 27 (12), 1813-1819. 10.1016/j.engstruct.2005.04.022
22. Liao, W. H., Wang, D. H., and, Huang, S. L. (2001). " Wireless monitoring of cable tension of cable-stayed bridges using PVDF piezoelectric films." J. Intell. Mater. Syst. Struct., 12 (5), 331-339. 10.1106/AVHK-TLR4-6PTQ-QGXY
23. Liljencrantz, A., and, Karoumi, R. (2009). " Twim: A MATLAB toolbox for real-time evaluation and monitoring of traffic loads on railway bridges." Struct. Infrastruct. Eng., 5 (5), 407-417. 10.1080/ 15732470701478370
24. Liljencrantz, A., Karoumi, R., and, Olofsson, P. (2007). " Implementing bridge weigh-in-motion for railway traffic." Comput. Struct., 85 (1-2), 80-88. 10.1016/j.compstruc.2006.08.056
25. Lin, B., and, Giurgiutiu, V. (2006). " Modeling and testing of PZT and PVDF piezoelectric wafer active sensors." Smart Mater. Struct., 15 (4), 1085-1093. 10.1088/0964-1726/15/4/022
26. Lorieux, L. (2008). " Analysis of train-induced vibrations on a single-span composite bridge." M.S. thesis, Royal Institute of Technology (KTH), Stockholm, Sweden.
27. LUSAS 14.7 [Computer software]. Kingston upon Thames, Surrey, U.K., LUSAS.
28. Lynch, P. J., and, Loh, K. J. (2006). " A summary review of wireless sensors and sensor networks for structural health monitoring." Shock Vib. Dig., 38 (2), 91-128. 10.1177/0583102406061499
29. Magno, M., Jackson, N., Mathewson, A., and, Popovici, E. (2013). " Combination of hybrid energy harvesters with MEMS piezoelectric and nano-watt radio wake up to extend lifetime of system for wireless sensor nodes." Proc., 26th Int. Conf. on Architecture of Computing Systems, VDE Verlag GMBH, Berlin.
30. Mansour, M., Lee, J.-Y., and, Hsu, T. T. C. (2001). " Cyclic stress-strain curves of concrete and steel bars in membrane elements." J. Struct. Eng., 10.1061/(ASCE)0733-9445(2001)127:12(1402), 1402-1411.
31. McCarthy, C. T., McCarthy, M. A., and, Lawlor, V. P. (2005). " Progressive damage analysis of multi-bolt composite joints with variable bolt-hole clearances." Composites Part B, 36 (4), 290-305. 10.1016/j.compositesb.2004.11.003
32. Moaveni, B., Conte, J. P., and, Hemez, F. M. (2009). " Uncertainity and sensitivity analysis of damage identification results obtained using finite element model updating." Comput.-Aided Civ. Infrastruct. Eng., 24 (5), 320-334. 10.1111/j.1467-8667.2008.00589.x
33. Monti, G., and, Spacone, E. (2000). " Reinforced concrete fibre beam element with bond-slip." J. Struct. Eng., 10.1061/(ASCE)0733-9445(2000) 126:6(654), 654-661.
34. Nakashima, M., and, Liu, D. (2005). " Instability and complete failure of steel columns subjected to cyclic loading." J. Eng. Mech., 10.1061/(ASCE)0733-9399(2005)131:6(559), 559-567.
35. O'Brien, E. J., and, Enright, B. (2013). " Using weight-in-motion data to determine aggressiveness of traffic for bridge loading." J. Bridge Eng., 10.1061/(ASCE)BE.1943-5592.0000368, 232-239.
36. O'Brien, E. J., Rattigan, P., González, A., Dowling, J., and, Žnidarič, A. (2009). " Characteristic dynamic traffic load effects in bridges." Eng. Struct., 31 (7), 1607-1612. 10.1016/j.engstruct. 2009.02.013
37. Pakrashi, V., Basu, B., and, O'Connor, A. (2007). " Structural damage detection and calibration using a wavelet-Kurtosis technique." Eng. Struct., 29 (9), 2097-2108. 10.1016/j.engstruct.2006.10.013
38. Pakrashi, V., Harkin, J., Kelly, J., Farrell, A., and, Nanukuttan, S. (2013). " Monitoring and repair of an impact damaged prestressed concrete bridge." Proc. Inst. Civ. Eng. Bridge Eng., 166 (1), 16-29. 10.1680/bren.10.00057
39. Pakrashi, V., O'Connor, A., and, Basu, B. (2010). " A bridge-vehicle interaction based experimental investigation of damage evolution." Struct. Health Monit., 9 (4), 285-296. 10.1177/1475921709352147
40. Perry, M. J., and, Koh, C. G. (2008). " Output-only structural identification in time domain: Numerical and experimental studies." Earthquake Eng. Struct. Dynam., 37 (4), 517-533. 10.1002/eqe.769
41. Rytter, A. (1993). " Vibration based inspection of civil engineering structures." Ph.D. thesis, Dept. of Building Technology and Structural Engineering, Aalborg Univ., Aalborg, Denmark.
42. Sazonov, E., Li, H., Curry, D., and, Pillay, P. (2009). " Self-powered sensors for monitoring of highway bridges." IEEE Sens. J., 9 (11), 1422-1429. 10.1109/JSEN.2009.2019333
43. Schuler, H., Mayrhofer, C., and, Thoma, K. (2006). " Spall experiments for the measurement of the tensile strength and fracture energy of concrete at high strain rates." Int. J. Impact Eng., 32 (10), 1635-1650. 10.1016/j.ijimpeng.2005.01.010
44. Sepe, V., Vestroni, F., Vidoli, S., Mele, R., and, Tisalvi, M. (2005). " Train-induced vibrations of masonry railway bridges." Proc., 6th EURODYN, IOS Press, Amsterdam, Netherlands, 161-166.
45. Shu, J., Zhang, Z., Gonzalez, I., and, Karoumi, R. (2013). " The application of a damage detection method using artificial neural network and train-induced vibrations on a simplified railway bridge model." Eng. Struct., 52, 408-421. 10.1016/j.engstruct.2013.02.031
46. Sirohi, J., and, Chopra, I. (2000). " Fundamental understanding of piezoelectric strain sensors." J. Intell. Mater. Syst. Struct., 11 (4), 246-257. 10.1106/8BFB-GC8P-XQ47-YCQ0
47. Sodano, H. A., Inman, D. J., and, Park, G. (2004). " A review of power harvesting from vibration using piezoelectric materials." Shock Vib. Dig., 36 (3), 197-205. 10.1177/0583102404043275
48. Song, G., Gu, H., Mo, Y. L., Hsu, T. T. C., and, Dhonde, H. (2007). " Concrete structural health monitoring using embedded piezoceramic transducers." Smart Mater. Struct., 16 (4), 959-968. 10.1088/0964-1726/16/ 4/003
49. Strand7 2.4.4 [Computer software]. Sydney, New South Wales, Australia, Strand7 Pty.
50. Tabesh, A., and, Fréchette, L. G. (2010). " A low-power stand-alone adaptive circuit for harvesting energy from a piezoelectric micropower generator." IEEE Trans. Ind. Electron., 57 (3), 840-849. 10.1109/TIE.2009.2037648
51. Tang, X., and, Zuo, L. (2011). " Enhanced vibration energy harvesting using dual-mass systems." J. Sound Vibrat., 330 (21), 5199-5209. 10.1016/j.jsv.2011.05.019
52. Torah, R., Glynne-Jones, P., Tudor, M., O'Donnell, T., Roy, S., and, Beeby, S. (2008). " Self-powered autonomous wireless sensor node using vibration energy harvesting." Meas. Sci. Technol., 19 (12), 125202.
53. Vatansever, D., Hadimani, R. L., Shah, T., and, Siores, E. (2011). " An investigation of energy harvesting from renewable sources with PVDF and PZT." Smart Mater. Struct., 20 (5), 055019.
54. Vinogradov, A., and, Holloway, F. (1999). " Electric-mechanical properties of the piezoelectric polymer PVDF." Ferroelectrics, 226 (1), 169-181. 10.1080/00150199908230298
55. Wang, J. F., Lin, C. C., and, Chen, B. L. (2003). " Vibration suppression for high-speed railway bridges using tuned mass dampers." Int. J. Solids Struct., 40 (2), 465-491. 10.1016/S0020-7683(02)00589-9
56. Wang, W. S., O'Keeffe, R., Wang, N., Hayes, M., O'Flynn, B., and, Ó'Mathúna, C. S. (2011). " Practical wireless sensor networks power consumption metrics for building energy management applications." Proc., 23rd European Conf. Forum Bauinformatik, Construction Informatics, Cork, Ireland.
57. Woo, S.-C., and, Goo, N. S. (2007). " Identification of failure mechanisms in a smart composite actuator with a thin sandwiched PZT plate based on waveform and primary frequency analysis." Smart Mater. Struct., 16 (4), 1460-1470. 10.1088/0964-1726/16/4/061
58. Zhan, J. W., Xia, H., Chen, S. Y., and, De Roech, G. (2011). " Structural damage identification for railway bridges based on train-induced bridge responses and sensitivity analysis." J. Sound Vibrat., 330 (4), 757-770. 10.1016/j.jsv.2010.08.031
59. Zhang, L., Brincker, R., and, Andersen, P. (2005). "An overview of operational modal analysis: Major development and issues." Proc., IOMAC 1, Aalborg Univ., Aalborg, Denmark, 179-190.