[1] Zabihian F., Fung A. S., Review of marine renewable energies: Case
study of Iran,
Renewable and Sustainable Energy Reviews 15 (2011) 2461–2474
[2] http://www.renewableenergyworld.com/rea/tech/ocean-energy
[3] http://www.energyquest.ca.gov/story/chapter14.html
[4] Wave and Tidal, Renewable Northwest Project,
http://www.rnp.org/sites/default/files/pdfs/Wave%20Tidal%20FactSheet%2
007April4.pdf
[5]
http://www.energysavers.gov/renewable_energy/ocean/index.cfm/mytopic=
50009
[6] Lejerskog E., Bostrom C., Hai L., , Waters R.,, Leijon M.,
Experimental results on power absorption from a wave energy converter at
the Lysekil wave energy research site, Renewable Energy 77 (2015) 9e14]
[7] Andersen T. L.; Frigaard, P., Lecture Notes for the Course in Water
Wave Mechanics, Department of Civil Engineering, Aalborg
University.2012]
[8] http://large.stanford.edu/courses/2010/ph240/bonifacio1, 17.06.2015]
Mükrimin Şevket GÜNEY
49
[9] Krogstad H. E., Arntsen O. A., Linear Wave Theory Part A,
Norwegian University of Science and Technology, Trondheim, 2000 ]
[10] Goda Y. Random seas and design of maritime structures. World
Scientific; 2000
[11] Al-Habaibeh, A., Su D., Mc Cague J., Knight A., An innovative
approach for energy generation from waves, Energy Conversion and
Management 51 pp 1664-1668, 2010
[12] http://www.bellona.org/reports/1193843119.55
[13] http://www.rnp.org/node/wave-tidal-energy-technology 15.06.2015
[14] Rodriques L. Power conversion systems for electrical energy
production, Department of electrical engineering Nova University, Lisbon,
http://www.icrepq.com/icrepq-08/380-leao.pdf 16.06.2015].
[15] Clément, A., McCullen, P., Falc˘ao, A., Fiorentino, A., Gardner, F.,
Hammarlund, K., Lemonis, G., Lewis, T., Nielsen, K., Petroncini, S.,
Pontes, M.-T., Schild, B.-O., Sjöström, P., Søresen, H. C., and
Thorpe,T.Wave energy in Europe: current status and perspectives. Renew.
Sust.Energy Rev., 2002, 6(5), 405–431.
[16] Drew B., Plummer A. R.,, Sahinkaya M.N., A review of wave energy
converter technology Department ofMechanical Engineering, University of
Bath, Bath, UK, 2009
[17] Iglesias G., Alvares M., Garcia P., Wave energy converters, University
of Santiago de Compostela, Hydraulic Eng, EPS, Campus Univ., s/n, Lugo
Spain]
[18 ] Waters R., Energy from Ocean Waves. Full Scale Experimental
Verification of a Wave Energy Converter. PhD thesis, Uppsala University,
Division of Electricity, 2008.
[19] Lindroth S., Buoy and Generator Interaction with Ocean Waves, PhD
Thesis from Faculty of Science and Technology, Uppsala University 2011
[20]
http://www.wavedragon.net/index.php?option=com_content&task=view&id
=6.
[21] www.renet-eu-india.com/energywave.php
[22] www.esru.strath.ac.uk
[23] http://owcwaveenergy.weebly.com/
[24] http://www.towards-sustainability.co.uk/issues/energy/wave.html
Wave Energy Conversion Systems
50
[25] How Oceanlinx Wave Energy Works www.oceanlinx.com.
[26] Gomes R.P.F, Henriques J.C.C, Gato L.M.C, Falcão A.F.O.,
Hydrodynamic optimization of an axisymmetric floating oscillating water
column for wave energy conversion, Renewable Energy 44 (2012) 328e339
[27] Qui S., Ye J., Wang D., Liang F., Experimental Study on A
Pendulum Wave Energy Converter, China Ocean Eng., Vol. 27, No. 3, pp.
359 – 368
[28] Toyota K., Nagata S., Imai Y., Ono K., Setoguchi T., Energy
Conversion Characteristics on Floating Type Pendulum Wave Energy
Converter in Regular Waves, Proceedings of the Twenty-first (2011)
International Offshore and Polar Engineering Conference Maui, Hawaii,
USA, June 19-24, 2011
[29] http://www.aquamarinepower.com/technology/how-oyster-wavepower-
works.aspx
[30]http://www.hydro-international.com/news/id3248-
Oyster_Wave_Power_Wins_Innovator_Of_The_Year.html
[31] Ogai S., , Umeda S., Ishida H., An experimental study of compressed
air generation using a pendulum wave energy converter, 9. International
Conference on Hydrodynamics, October 11-15 Shanghai, China 2011
[32] Larsson Kim, Investigation of a wave energy converter with a flywheel
and a corresponding generator design, Thesis for the degree of Master of
Science in Electrical Engineering, Department of Energy and Environment
Chalmers University of Technology, Goteburg Sweden 2012
[33] http://www.ecowavepower.com/products/.
[34] http://energybible.com/water_energy/wave_energy_systems.html
[35] https://sciencetechno.wordpress.com/2009/02/01/the-pelamis-waveenergy-
converter-pelamis-dalga-enerji-ureteci/
[36] http://www.emec.org.uk/about-us/wave-clients/pelamis-wave-power/
[37] http://www.engitek.com/ocean-energy-others-tide-and-waves-powergeneration-
systems.html .
[38] http://brandlmotor.de/brandlgenerator.eng.htm.
[39] http://www.columbiapwr.com/technology.asp.
[40] http://eecs.engr.oregonstate.edu/wesrf/gendeploy.html
[41] http://www.oceanpowertechnologies.com/powerbuoy
Mükrimin Şevket GÜNEY
51
[42]
http://static1.squarespace.com/static/54921361e4b0a51594844ff0/t/54aaf92
4e4b0a61122e378d7/1420491044038/OMAE_OPT+PowerBuoy+System+L
evel+Design+Development+and+Validation+Methology.+June+2014.pdf.
[44] Boehlert G.W., McMurray G. R., Tortorici C.E., Ecological Effects of
Wave Energy Development in the Pacific Northwest A Scientific
Workshop, October 11–12, 2007, U.S. Department of Commerce National
Oceanic and Atmospheric Administration National Marine Fisheries
Service, 2007
[45] Arqam I., Kashif S.A.R., Saqib M.A., Asad M. M.,, Wave electrical
energy systems: Implementation, challenges and environmental issues,
Renewable and Sustainable Energy Reviews 40 (2014) 260–268
[46] Ecological Effects of Wave Energy Development in the Pacific
Northwest, http://hmsc.oregonstate.edu/waveenergy/
[47] Development in the Pacific Northwest A Scientific Workshop,
October 11–12, 2007,
http://spo.nmfs.noaa.gov/tm/Wave%20Energy%20NOAATM92%20for%20
web.pdf
[48] http://owcwaveenergy.weebly.com/
[49] http://www.appropedia.org/Wave_energy#Modern_technology
Thank you for copying data from http://www.arastirmax.com
