References
- Bergeron, N.E. and Abrahams, A.D. (1992). Estimating shear velocity and roughness length from velocity profiles. Water Resources Research, 28(8), 2155-2158. https://doi.org/10.1029/92WR00897
- CBS (2011). http://www.cbc.ca/news/canada/nova-scotia/failedtidal-turbine-explained-at-symposium-1.1075510.
- Dyer, K.R. (1986). Coastal and Estuarine Sediment Dynamics. John Wiley & Sons, Ltd, Chichester, UK, 342.
- EMEC. (2009). Assessment of tidal energy resource : marine renewable energy guides. EMEC.
- Hagerman, G., Polagye, B., Bedard, R. and Previsic, M. (2006). Methodology for Estimating Tidal Current Energy Resources and Power Production by Tidal In-stream Energy Conversion (TISEC) Devices, EPRI North American Tidal In Stream Power Feasibility Demonstration Project.
- Hill, A.E. (1991). Vertical migration in tidal currents. Mar. Ecol. Prog. Ser., 75, 39-54. https://doi.org/10.3354/meps075039
- Hsu, S.A. (2013). Coastal meteorology. Academic Press Inc. 260.
- Kang, S.K., Yum, K.D., Lee, K.S. and Park, J.S. (2005). Coastalphysical oceanographic aspects in relation to the tidal current power generation in the Uldolmok. Journal of New and Renewable Energy, 1(2), 73-78 (in Korean).
- Ko, D.H., Jeong, S.T., Cho, H., Kim, J.Y. and Kang, K.S. (2012). Error analysis on the offshore wind speed estimation using HeMOSU-1 data. Journal of Korean Society of Coastal and Ocean Engineers, 24(5), 326-332 (in Korean). https://doi.org/10.9765/KSCOE.2012.24.5.326
- Lewis, M., Neill, S.P., Robins, P., Hashemi, M.R. and Ward, S. (2017). Characteristics of the velocity profile at tidal-stream energy sites. Renewable Energy, 114, 258-272. https://doi.org/10.1016/j.renene.2017.03.096
- Lippmann, T.C., Irish, J. and Hunt, J. (2013). Observations of the vertical structure of tidal cuirrents in two inlets. Journal of Coastal Research, Special Issue, 65, 1-6. https://doi.org/10.2112/SI65-001.1
- Lozovatsky, I., Liu, Z., Fernando, H., Armengol, J. and Roget, E. (2012). Shallow water tidal currents in close proximity to the seafloor and boundary-induced turbulence. Ocean dynamics, 62, 177-191. https://doi.org/10.1007/s10236-011-0495-3
- Lozovatsky, I.D., Liu, Z., Wei, H. and Fernando, H.J.S. (2008a). Tides and mixing in the northwestern East China Sea part I: rotating and reversing flows. Cont. Shelf. Res., 28, 318-337. https://doi.org/10.1016/j.csr.2007.08.006
- Lozovatsky, I.D., Liu, Z., Wei, H. and Fernando, H.J.S. (2008b). Tides and mixing in the northwestern East China Sea Part II: near-bottom turbulence. Cont. Shelf. Res., 28, 338-350. https://doi.org/10.1016/j.csr.2007.08.007
- MLTMA (2011). Development of Utilization Technique for Tidal Current Energy, Ministry of land, transport and maritime affairs. Korea (in Korean).
- Mofjeld, H.O., Schumacher, J.D. and Pashinski, D.J. (1984). Theoretical and observed profiles of tidal currents at tow sites on the southeastern Bering sea shelf. NOAA technical memorandum ERL PMEL-62, NOAA, USA.
- MOF (2015). Midium- and Long-term Development Plan for Marine Energy ('15-'25), proposal. Ministry of oceans and fisheries. Korea (in Korean).
- Prandle, D. (1982). The vertical structure of tidal currents and other oscillatory flows. Cont. Shelf. Res., 1(2), 191-207. https://doi.org/10.1016/0278-4343(82)90004-8
- Roh, E.G. (2001). Turbulence. Sigmapress. 131-133 (in Korean).
- Soulsby, R.L. (1983). The bottom boundary layer of shelf seas, in Physical Oceanography of Coastal and Shelf Seas, ed. by Johns, B. Elsevier, Amsterdam, The Netherlands, Chapter 5.
- Soulsby, R. (1997). Dynamics of Marine sands: a manual for practical applications. Thomas Telford, 1997.
- Taylor, J.R. and Sarkar, S. (2008). Stratification effects in a bottom ekman layer. American Meteorological Society, 2535-2555.