Subject Areas : Renewable Energies Modeling
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Keywords:
Abstract :
References:
I. Simonetti, L. Cappietti, “Mediterranean coastal wave-climate long-term trend in climate change scenarios and effects on the optimal sizing of OWC wave energy converters”, Coastal Engineering, 179 (2023): 104247.
B. Guo, J. V. Ringwood, “Geometric optimisation of wave energy conversion devices: A survey,” Applied Energy, 297 (2021): 117100.
M. Karamifard, “extraction of energies from the sea and ocean - review paper”, 6th national Conference on Mechanical and Aerospace Engineering, Tehran،https://civilica.com/doc/1394667, 9 February 2022.
NicolásFaedo, John V.Ringwood, “Moment-Based Constrained Optimal Control of Wave Energy Converters: Flap-Type Device”, IFAC-PapersOnLine, 51.29 (2018): 50-55.
Umesh A.Korde, “Preliminary consideration of energy storage requirements for sub-optimal reactive control of axisymmetric wave energy devices”, Annual Reviews in Control, 40 (2015): 93-101.
JitendraKr. Jain, OliverMason, YeraiPeña-Sanchez, John V.Ringwood, “Optimal Control of Wave Energy Devices with Nonlinear Reactive Power Constraints”, IFAC-PapersOnLine, 55.16 (2022): 98-103.
Umesh A.Korde, “Near-optimal control of a wave energy device in irregular waves with deterministic-model driven incident wave prediction”, Applied Ocean Research, 53 (2015): 31-45.
GiorgioBacelli, John V.Ringwood, “Nonlinear optimal wave energy converter control with application to a flap-type device”, IFAC Proceedings, Volumes 47.3 (2014): 7696-7701.
AlexisMérigaud, John V.Ringwood, “Optimal trajectories, nonlinear models and constraints in wave energy device control”, IFAC-PapersOnLine, 50.1 (2017): 15645-15650.
Irene Simonetti, Lorenzo Cappietti, “Mediterranean coastal wave-climate long-term trend in climate change scenarios and effects on the optimal sizing of OWC wave energy converters”, Coastal Engineering, 179 (2023): 104247.
Zhongliang Mengab, Yi Dingc, Yun Chenb, Shizhen Li, “Experimental study on heave performance of a new wave energy power generation device based on regular waves”, Ocean Engineering, 252 (2022): 111099.
XiongboZheng, et. Al., “Sea trial test on offshore integration of an oscillating buoy wave energy device and floating breakwater”, Energy Conversion and Management, 256 (2022): 115375.
Clément; et al. “Wave energy in Europe: current status and perspectives,” Renewable and Sustainable Energy Reviews. 6 (5), (2002), 405–431.
Holthuijsen, Leo H. Waves in oceanic and coastal waters. Cambridge: Cambridge University Press. ISBN 978-0-521-86028-4, (2007).
Slideshare. Wave energy and its utilization. June 1, 1999. Retrieved April 28, (2023).
E. Shabanie ,Investigating sea wave energies with a new approach, First International Conference on Civil Engineering, New and practical findings, 6 January 2022, Shiraz،https://civilica.com/doc/1369877.
A. Shahsavarizadeh, Javad Zahiri, “Investigating methods of extracting energy from sea waves and their efficiency on the northern and southern coasts of the country”, 4st Conference on Application of Modern Technologies in Science and Engineering, Torbat Heydarieh, https://civilica.com/doc/614098, (2022).
I. Simonetti, L. Cappietti, “Mediterranean coastal wave-climate long-term trend in climate change scenarios and effects on the optimal sizing of OWC wave energy converters”, Coastal Engineering, 179 (2023): 104247.
B. Guo, J. V. Ringwood, “Geometric optimisation of wave energy conversion devices: A survey,” Applied Energy, 297 (2021): 117100.
M. Karamifard, “extraction of energies from the sea and ocean - review paper”, 6th national Conference on Mechanical and Aerospace Engineering, Tehran،https://civilica.com/doc/1394667, 9 February 2022.
NicolásFaedo, John V.Ringwood, “Moment-Based Constrained Optimal Control of Wave Energy Converters: Flap-Type Device”, IFAC-PapersOnLine, 51.29 (2018): 50-55.
Umesh A.Korde, “Preliminary consideration of energy storage requirements for sub-optimal reactive control of axisymmetric wave energy devices”, Annual Reviews in Control, 40 (2015): 93-101.
JitendraKr. Jain, OliverMason, YeraiPeña-Sanchez, John V.Ringwood, “Optimal Control of Wave Energy Devices with Nonlinear Reactive Power Constraints”, IFAC-PapersOnLine, 55.16 (2022): 98-103.
Umesh A.Korde, “Near-optimal control of a wave energy device in irregular waves with deterministic-model driven incident wave prediction”, Applied Ocean Research, 53 (2015): 31-45.
GiorgioBacelli, John V.Ringwood, “Nonlinear optimal wave energy converter control with application to a flap-type device”, IFAC Proceedings, Volumes 47.3 (2014): 7696-7701.
AlexisMérigaud, John V.Ringwood, “Optimal trajectories, nonlinear models and constraints in wave energy device control”, IFAC-PapersOnLine, 50.1 (2017): 15645-15650.
Irene Simonetti, Lorenzo Cappietti, “Mediterranean coastal wave-climate long-term trend in climate change scenarios and effects on the optimal sizing of OWC wave energy converters”, Coastal Engineering, 179 (2023): 104247.
Zhongliang Mengab, Yi Dingc, Yun Chenb, Shizhen Li, “Experimental study on heave performance of a new wave energy power generation device based on regular waves”, Ocean Engineering, 252 (2022): 111099.
XiongboZheng, et. Al., “Sea trial test on offshore integration of an oscillating buoy wave energy device and floating breakwater”, Energy Conversion and Management, 256 (2022): 115375.
Clément; et al. “Wave energy in Europe: current status and perspectives,” Renewable and Sustainable Energy Reviews. 6 (5), (2002), 405–431.
Holthuijsen, Leo H. Waves in oceanic and coastal waters. Cambridge: Cambridge University Press. ISBN 978-0-521-86028-4, (2007).
Slideshare. Wave energy and its utilization. June 1, 1999. Retrieved April 28, (2023).
E. Shabanie ,Investigating sea wave energies with a new approach, First International Conference on Civil Engineering, New and practical findings, 6 January 2022, Shiraz،https://civilica.com/doc/1369877.
A. Shahsavarizadeh, Javad Zahiri, “Investigating methods of extracting energy from sea waves and their efficiency on the northern and southern coasts of the country”, 4st Conference on Application of Modern Technologies in Science and Engineering, Torbat Heydarieh, https://civilica.com/doc/614098, (2022).
