1 |
Anton, S.R. and Sodano, H.A. (2007), "A review of power harvesting using piezoelectric materials (2003-2006)", Smart Mater. Struct., 16, R1-R21.
DOI
ScienceOn
|
2 |
APC (2012), information obtained by communication, Company site www.americanpiezo.com .
|
3 |
APC (collective work) (2002), Piezoelectric Ceramics: Principles and Applications, APC International Ltd.
|
4 |
Athanassoulis, G.A. and Belibassakis, K.A. (1999), "A consistent coupled-mode theory for the propagation of small-amplitude water waves over variable bathymetry regions", J. Fluid Mech., 398, 275-301.
|
5 |
Auld B.A. (1969), "Application of microwave concepts to the theory of acoustic fields and waves in solids", IEEE T. Microw. Theory., 17(11), 800-811.
DOI
|
6 |
Bai, K.J. and Yeung, R. (1974), "Numerical solutions of free-surface and flow problems", Proceedings of the 10th Symp. Naval Hydrodyn. 609-641, Office of Naval Research.
|
7 |
Bar-Cohen Y. (2010), Chapter 8 in (Eds., Uchino, K. et. al.), Advanced piezoelectric materials: Science and technology, Woodhead Publishing.
|
8 |
Bardzokas, D.I. and Filshtinsky, M.L. (2006), Mathematical Methods in Electroelasticity NTUA University Press, Athens.
|
9 |
Barstow, S., Mork. G., Lonseth, L. and Mathisen, J.P. (2009), "WorldWaves wave energy resource assessments from the deep ocean to the coast", Proceedings of the 8th European Wave and Tidal Energy Conference, Uppsala, Sweden.
|
10 |
Barstow, S., Mork, G., Lonseth, L., Schjolberg, P., Athanassoulis, G.A., Belibassakis, K.A., Gerostathis, Th. P., Spaan, G. and Stergiopoulos, Ch. (2003), "WORLDWAVES: High quality coastal and offshore wave data within minutes for any global site", Proceedings of the 22nd Int. Conference on Offshore Mechananics and Arctic Engineering OMAE, Cancun, Mexico.
|
11 |
Bauer, S. and Bauer, F. (2008), Chapter 6 in (Eds. Heywang, W., Lubitz, K. and Wersing, W. et. al.) , Piezoelectricity: Evolution and Future of a Technology, Springer.
|
12 |
Belibassakis, K.A. and Athanassoulis, G.A. (2005), "A coupled-mode model for the hydroelastic analysis of large floating bodies over variable bathymetry regions" J. Fluid Mech., 531, 221-249.
DOI
ScienceOn
|
13 |
Bloomfield, P.E. (1994), "Dielectric and piezoelectric properties of stacked and plated PVDF, P(VDF/TrFE) and ceramic/rubber composite thick films", Proceedings of the 9th IEEE Int. Symposium on Applications of Ferroelectrics ISAF.
|
14 |
Cruz , J. (editor) (2008), Ocean Wave Energy: Current Status and Future Prespectives, Springer.
|
15 |
Brockmann, T. H. (2009), Theory of Adaptive Fiber Composites, Springer.
|
16 |
Carpi, F., De Rossi, D., Kornbluh, R., Pelrine, R.E. and Sommer-Larsen, P. (editors) (2008), Dielectric Elastomers as Electromechanical Transducers, Elsevier.
|
17 |
Cavaleri, L., Athanassoulis, G. A. and Barstow, S. (1999), "EUROWAVES: a user - friendly approach to the evaluation of nearshore wave conditions", Proceedings of the 9th Int. Offshore and Polar Engineering Conference and Exhibition ISOPE, Brest, France.
|
18 |
Doring, J., Bovtun, V., Bartusch, J., Beck, U. and Kreutzbruc,k M. (2008), "Cellular polypropylene ferroelectret film: piezoelectric material for non-contact ultrasonic transducers", Proceedings of the 17th World Conference on Nondestructive Testing, Shanghai, China.
|
19 |
Erturk, A. and Inman, D.J. ( 2011), Piezoelectric Energy Harvesting, Wiley.
|
20 |
Guyomar, D., Badel, A., Lefeuvre, E. and Richard, C., (2005), "Toward energy harvesting using active materials and conversion improvement by nonlinear processing", IEEE T. Ultrason., Ferr., 53(4), 584-595.
|
21 |
Haeusler, E. and Stein, L. (1985), "Hydromechanic-Electric Power Converter", Ocean Eng. Environment - Conference Record, San Diego, USA.
|
22 |
Iesan, D. (1990), "Reciprocity, uniqueness and minimum principles in the linear theory of piezoelectricity" Int. J. Eng. Sci., 28(11), 1139-1149.
DOI
ScienceOn
|
23 |
Jaffe, B., Cook,W. R. Jr. and Jaffe, H. (1971), Piezoelectric Ceramics, Academic Press.
|
24 |
Jamois, E., Molin, B., Remy, F. and Kimmoun, O. (2006), "Nonlinear wave amplification in front of reflective structures", Eur. L. Mech. B-Fluid., 25(5), 565-573.
DOI
ScienceOn
|
25 |
Khaligh, A. and Onar, O.C. (2010), Energy Harvesting: Solar, Wind, and Ocean Energy Conversion Systems, CRC Press.
|
26 |
Lefeuvre, E., Lallart, M., Richard, C. and Guyomar, D. (2010), Chapter 9 in (Eds., Gomez, E.S. et. al.), Piezoelectric Ceramics, SCIYO. (Free online edition available at www.sciyo.com).
|
27 |
Khayyer, A. and Gotoh, H. (2009), "Modified moving particle semi-implicit methods for the prediction of 2D wave impact pressure" , Coast. Eng., 56(4), 419-440.
DOI
ScienceOn
|
28 |
Koola, P.M. and Ibragimov, A. (2003), "The dynamics of wave carpet - a novel deep water wave energy design", Proceedings of the Oceans 2003 , San Diego USA.
|
29 |
Kreisel, G. (1949), "Surface waves", Q. Appl. Math., 7(1), 21-44.
DOI
|
30 |
Lenoir, M. and Tounsi, A. (1988), "The Localized Finite Element Method and its Application to the Two- Dimensional Sea-Keeping Problem", SIAM J. Numer. Anal., 25(4), 729-752.
DOI
ScienceOn
|
31 |
Liang, J. and Liao, W.H. (2011), "Energy flow in piezoelectric energy harvesting systems", Smart Mater. Struct., 20(1), 015005.
DOI
ScienceOn
|
32 |
Mei, C.C., Stiassnie, M. and Yue. D.K.P. (2005), Theory and Applications of Ocean Surface Waves: Part I, Linear Aspects; Part II, Nonlinear Aspects, World Scientific.
|
33 |
Meitzler, A.H. (chair) et. al. (1987), IEEE Standard on Piezoelectricity, IEEE Inc.
|
34 |
Molin, B., Kimmoun, O., Liu. Y., Remy. F. and Bingham. H.B. (2010), "Experimental and numerical study of the wave run-up along a vertical plate" J. Fluid Mech., 654, 363-386.
DOI
ScienceOn
|
35 |
Molin, B., Remy, F., Kimmoun, O. and Jamois, E. (2005), "The role of tertiary wave interactions in wave- body problems", J. Fluid Mech., 528, 323-354.
DOI
ScienceOn
|
36 |
Murray, R. and Rastegar, J. (2009), "Novel two - stage piezoelectric - based ocean wave energy harvesters for moored or unmoored buoys", Active and Passive Smart Structures and Integrated Systems SPIE, 7288, 72880E (2009), San Diego USA.
|
37 |
Myers, R., Vickers, M., Kim, H. and Priya, S. (2007). "Small scale windmill", Appl. Phys. Lett., 90(5), 3.
|
38 |
Parton, V.Z. and Kudryavtsev, B.A. (1988), Electromagnetoelasticity: Piezoelectrics and Electrically Conductive Solids, Gordon and Breach Science Publishers.
|
39 |
Mørk, G., Bastow, S., Kabuth, A. and Pontes, M.T. (2010), "Assesing the global wave energy potential", Proceedings of the 29th Int. Conference on Osean, Offshore Mechanics and Arctic Engineering OMAE, Shanghai, China.
|
40 |
Newnham , R.E. (2005), Properties of Materials, Oxford University Press.
|
41 |
Peregrine, D.H. (2003), "Water wave impact on walls" Annu. Rev. Fluid Mech., 35(1), 23-43.
DOI
ScienceOn
|
42 |
Pobering, S. and Schwesinger, N. (2004) , "A novel hydropower harvesting device", Proceedings of the 2004 Int. Conference on MEMS, NANO and Smart Systems, ICMENS 2004, Banff, Canada.
|
43 |
Pontes, M.T., Athanassoulis, G.A., Bastow, S., Cavaleri, L., Holmes, B., Mollison, D. and Oliveira-Pires, H. (1996), "An atlas of the wave energy resource in Europe", J. Offshore Mech. Arct.,118(4), 307-309.
DOI
|
44 |
Pontes, M.T., Athanassoulis, G.A., Bastow, S., Cavaleri, L., Holmes, B., Mollison, D. and Oliveira-Pires, H. (1995), "An Atlas of the Wave Energy Resource in Europe", Proceedings of the 14th Int. Offshore Mechanics and Arctic Engineering Conference, OMAE, Copenhagen, Denmark.
|
45 |
Preumont, A. (2011), Vibration Control of Active Structures, Springer.
|
46 |
Priya, S. (2007), "Advances in energy harvesting using low profile piezoelectric transducers", J. Electroceram., 19, 167-184.
DOI
ScienceOn
|
47 |
Priya, S., Chen, C.T., Fye, D. and Zahnd, J. (2005). "Piezoelectric windmill: A novel solution to remote sensing", Jpn. J. Appl. Phys: 2, 44(1-7), L104-L107.
DOI
ScienceOn
|
48 |
Priya, S. and Inman, D. J. (2009), Energy Harvesting Technologies, Springer.
|
49 |
Sherman, Ch. H. and Butler, J. L. (2007), Transducers and Arrays for Underwater Sound, Springer.
|
50 |
Shu, Y.C. and Lien, I.C. (2006), "Analysis of power output for piezoelectric energy harvesting systems", Smart Mater. Struct., 15, 1499-1512.
DOI
ScienceOn
|
51 |
Smith, W.A. and Auld, B.A. (1991), "Modeling 1 - 3 composite piezoelectrics: thickness-mode oscillations", IEEE T. Ultrason., Ferr., 38(1), 40-47.
DOI
ScienceOn
|
52 |
Sodano, H.A., Park, G. and Inman, D.J. (2004), "A review of power harvesting using piezoelectric materials", Shock Vib., 36 (3), 197-206.
DOI
ScienceOn
|
53 |
Splitt, G. (1996), "Piezocomposite transducers - a milestone for ultrasonic testing", electronic version at http://www.ndt.net/article/splitt/splitt_e.htm of the nondestructive testing (NDT) database.
|
54 |
Stoker, J.J. (1957), Water Waves, Interscience.
|
55 |
Taylor, G.W., Burns, J.R., Kammann, S.M., Powers, W.B. and Welsh T.R. (2001), "The energy harvesting eel: a small subsurface ocean/river power generator", IEEE J. Ocean. Eng., 26, 539-547.
DOI
ScienceOn
|
56 |
Taylor, G.W. and Burns, J.R. (1983), "Hydro-piezoelectric power generation from ocean waves", Ferroelectrics, 49(1), 101-101.
DOI
ScienceOn
|
57 |
Uchino, K. (2010), Chapter 9 in (Eds. Uchino K. et. al.), Advanced piezoelectric materials: Science and technology, Woodhead Publishing.
|
58 |
Yang ,J. (2006a), Analysis of Piezoelectric Devices,World Scientific.
|
59 |
Yang, J. (2006b), The Mechanics of Piezoelectric Structures,World Scientific.
|
60 |
Wehausen, J. N. and Laitone, E.V. (1960), Surface Waves, Handbuch der Physik, Springer.
|