References
- Douglas-Westwood (2011). The World Wave & Tidal Report 2011-2015.
- Hong, K., Shin, S-H. and Hong, D-C. (2007). Wave energy absorption efficiency of pneumatic chamber of OWC wave energy converter. J. of the Korean Society for Marine Environmental Engineers, 10(3), 173-180 (in Korean).
- Hong, K.-Y., Ryu, H.-J., Shin, S.-H. and Hong, S.-W. (2004). Wave energy distribution at Jeju Sea and investigation of optimal sites for wave power generation. J. of Korean Society of Ocean Engineers, 18(6), 8-15 (in Korean).
- Japan Ocean Development Construction Association (2006). Ocean energy development technology in the 21st century (in Japanese).
- Joao Cruz (2008). Ocean Wave Energy: Current Status and Future Prespectives. Springer.
- Kim, S.-J., Kwon, J., Kim, J.-D., Koo, W., Shin, S. and Kim, K. (2012). Experimental study of hydrodynamic performance of backward bent duct buoy (BBDB) floating wave energy converter. J. of Ocean Engineering and Technology, 26(6), 53-58 (in Korean). https://doi.org/10.5574/KSOE.2012.26.6.053
- Koo, W.-C., Kim, M.-H. and Choi, Y.-R. (2010). Numerical analysis of chamber flow and wave energy conversion efficiency of a bottom-mounted oscillating water column wave power device. J. of the Society of Naval Architects of Korea, 47(3), 388-397 (in Korean). https://doi.org/10.3744/SNAK.2010.47.3.388
- Koo, W.-C., Kwon, J.-S., Kim, J.-D., Kim, S.-J., Kim, M.-W. and Choi, M.-K. (2012). Experimental study of shape parameter of land-based OWC wave energy converter. J. of Korean Society of Ocean Engineers, 26(3), 33-38 (in Korean).
- KORDI (Korea Ocean Research and Development Institute) (2001). Coastal Development (in Korean).
- Kyoung, J.-H., Hong, S.-Y. and Hong, D.-C. (2006). Numerical analysis on wave energy absorption of OWC-type wave power generation. J. of Korean Society of Ocean Engineers, 20(4), 64-69.
- Lee, M. (2014). Renewable and Ocean Energy Engineering (in Korean).
- Nam, B.W., Hong, S.Y., Kim, K.-B., Park, J. and Shin, S.-H. (2011). Numerical analysis of wave-induced motion of floating pendulor wave energy convertor. J. of Korean Society of Ocean Engineers, 25(4), 28-35 (in Korean).
- Oh, N.S., Jeong, S.T. and Ko, D.H. (2015). Experimental study for wave energy convertor using floating light buoy. Journal of Korean Society of Coastal and Ocean Engineers, 27(1), 50-55 (in Korean). https://doi.org/10.9765/KSCOE.2015.27.1.50
- Park, J.Y., Shin, S.H. and Hong, K.Y. (2011). Experimental study for overtopping performance and control system of overtopping wave energy convertor. J. of the Korean Society for Marine Environmental Engineering, 14(1), 11-18 (in Korean). https://doi.org/10.7846/JKOSMEE.2011.14.1.011
- Park, W.S., Yun, C.B. and Pyun, C.K. (1989). Infinite elements for the evaluation of wave forces. Journal of Korean Society of Coastal and Ocean Engineers, 1(1), 71-80 (in Korean).
- Ryu, C.R., Hong, S.-W., Kim, H.-J. and Kang, Y.-K. (2006). Ocean Energy Engineering (in Korean).
- Ryu, H.-J., Shin, S.-H., Hong, K.-Y., Hong, S.-W. and Kim, D.-Y. (2007). A simulation of directional irregular waves at Chagui-Do Sea area in Jeju using the Boussinesq wave model. J. of Korean Society of Ocean Engineers, 21(1), 7-17.
- Shin, S.-H. and Hong, K. (2005). Experimental study on wave overtopping rate of wave overtopping control structure for wave energy conversion. J. of Korean Society of Ocean Engineers, 19(6), 8-15 (in Korean).