140 Fundamentals of Ocean Renewable Energy


             [8] A. Toffoli, A. Babanin, M. Onorato, T. Waseda, Maximum steepness of oceanic waves: field
                and laboratory experiments, Geophys. Res. Lett. 37 (5) (2010) L05603.
             [9] A. Chawla, J.T. Kirby, Monochromatic and random wave breaking at blocking points, J.
                Geophys. Res. Oceans 107 (C7) (2002) 3067.
            [10] U.S. Army Coastal Engineering Research Center, Shore Protection Manual, vol. 1, US Army
                Corps of Engineers, Vicksburg, Mississippi, 1973.
            [11] C. Augustine, R. Bain, J. Chapman, P. Denholm, E. Drury, D.G. Hall, E. Lantz, R. Margolis,
                R. Thresher, D. Sandor, N.A. Bishop, S.R. Brown, G.F. Cada, F. Felker, S.J. Fernandez, A.C.
                Goodrich, G. Hagerman, G. Heath, S. O’Neil, J. Paquette, S. Tegen, K. Young, Renewable
                electricity generation and storage technologies, in: Volume 2 of Renewable Electricity Futures
                Study, 2012, NREL/TP-6A20-52409-2.
            [12] M. Previsic, The Future Potential of Wave Power in the United States, U.S. Department of
                Energy, Washington, DC, 2012.
            [13] K. Gunn, C. Stock-Williams, Quantifying the global wave power resource, Renew. Energy 44
                (2012) 296–304.
            [14] S.P. Neill, M.J. Lewis, M.R. Hashemi, E. Slater, J. Lawrence, S.A. Spall, Inter-annual and
                inter-seasonal variability of the Orkney wave power resource, Appl. Energy 132 (2014)
                339–348.
            [15] S.P. Neill, M.R. Hashemi, Wave power variability over the northwest European shelf seas,
                Appl. Energy 106 (2013) 31–46.

            FURTHER READING

            [1] B. Le Méhauté, An Introduction to Hydrodynamics and Water Waves, Springer, New York, NY,
               1976.