Ocean power technology design optimization

Gunn, 2012, Quantifying the global wave power resource, Renewable Energy, 44, 296, 10.1016/j.renene.2012.01.101 de O. Falcão, 2010, Wave energy utilization: A review of the technologies, Renewable Sustainable Energy Rev., 14, 899, 10.1016/j.rser.2009.11.003 Li, 2012, A synthesis of numerical methods for modeling wave energy converter-point absorbers, Renewable Sustainable Energy Rev., 16, 4352, 10.1016/j.rser.2011.11.008 P. Paristech, M. Benoit, C. Peyrard, A Coupled Methodology for Wave-Body Interactions at the Scale of A Farm of Wave Energy Converters Including Irregular Bathymetry, in: 33rd International Conference on Ocean, Offshore and Arctic Engineering, OMAE, San Francisco, CA, United States, 2014. Yu, 2013, RANS simulation of the heave performance of a two-body floating-point absorber wave energy system, Comput. Fluids, 73, 104, 10.1016/j.compfluid.2012.10.007 E. Quon, A. Platt, Y. Yu, M. Lawson, Application of the Most Likely Extreme Response Method for Wave Energy Converters, in: 35th International Conference on Ocean, Offshore and Arctic Engineering, OMAE, Busan, South Korea, 2016. Babarit, 2012, Numerical benchmarking study of a selection of wave energy converters, Renewable Energy, 41, 44, 10.1016/j.renene.2011.10.002 W. Cummins, The Impulse Response Function and Ship Motions, David Taylor Model Dasin (DTNSRDC), 1962. Y.-H. Yu, J. Van Rij, R. Coe, M. Lawson, Preliminary Wave Energy Converters Extreme Load Analysis, in: 34th International Conference on Ocean, Offshore and Arctic Engineering, ASME, St. John’s, Newfoundland, Canada, 2015. WEC-Sim. <https://wec-sim.github.io/WEC-Sim/> (accessed March 2, 2017). Ocean Power Technologies. <http://www.oceanpowertechnologies.com/> (accessed March 2, 2017). J. Bretl, K. Edwards, J. Eder, PB500 Stage Gate III Tank Test Results, Ocean Power Technologies (OPT), Pennington, NJ, USA, 2011. Y.-H. Yu, M. Lawson, K. Ruehl, C. Michelen, Development and Demonstration of the WEC-Sim Wave Energy Converter Simulation Tool, National Renewable Energy Laboratory (NREL) & Sandia National Laboratories (SNL). <http://energy.sandia.gov/wp-content/gallery/uploads/SAND2014-3013.pdf> (accessed January 6, 2016). Wamit, Inc. <http://www.wamit.com/> (accessed March 2, 2017). STAR-CCM+. >http://mdx.plm.automation.siemens.com/star-ccm-plus> (accessed March 2, 2017). Faltinsen, 1993 Inman, 2001 Dallman, 2014 Y.-H. Yu, M. Lawson, Y. Li, M. Previsic, J. Epler, J. Lou, Experimental Wave Tank Test for Reference Model 3 Floating-Point Absorber Wave Energy Converter Project. <http://www.nrel.gov/docs/fy15osti/62951.pdf> (accessed January 6, 2016). K. Ruehl, C. Michelen, S. Kanner, M. Lawson, Y.-H. Yu, Preliminary Verification and Validation of WEC-Sim, an Open-Source Wave Energy Converter Design Tool, National Renewable Energy Laboratory (NREL). <http://www.nrel.gov/docs/fy14osti/61531.pdf> (accessed January 6, 2016). Veldkamp, 2006 R. Coe, C. Michelen, A. Eckert-Gallup, Y.-H. Yu, J. van Rij, WDRT: A Toolbox for design-response analysis of wave energy converters, in: Proceedings of the 4th Marine Energy Technology Symposium, METS2016, Washington, DC, United States, 2016. C. Michelen, R. Coe, Comparison of methods for estimating short-term extreme response of wave energy converters, in: OCEANS 2015 – MTS/IEEE Washington, 2015, pp. 1–6.69.