1 |
Kang, SJ and Park, YK (2010). Comparative Analysis for Numerical Modeling of Tidal Current on Geum River Estuary, Journal of the Korea Academia-Industrial cooperation Society, 11(9), pp.3583-3589. [Korean Literature] DOI: https://doi.org/10.5762/KAIS.2010.11.9.3583
DOI
|
2 |
Jang, CH, Kim, HS, Ihm, NJ (2012). A Development of Coupled Wave-Induced Current Modeling System and Its application to the Idealized Shoreline with Detached Breakwater, Journal of wetlands research, Korean Wetlands Society, 14(4), pp.439-455. [Korean Literature]
|
3 |
Yoo, HJ, Cho, JG, Kim, TI, Park, SJ, Lee, SY, Bang, GY, and Jung, JM (2019). Analysis of Sediment Transport Characteristics in Geum Estuary Using Delft3D Numerical Model, Proceedings of the 7th Annual Conference, Korean Society of Coastal Disaster Prevention, Korean Society of Coastal Disaster Prevention, Jeju, Korea, p.109. [Korean Literature]
|
4 |
Cho, JG, Song, YS, Kim, TI, and Jeong, ES (2017). A Integrated Numerical Model Development of Geum River Estuary with Watershed-River-Estuary, Proceedings of Cooperation Spring Conference, Journal of Korean Society on Water Environment, Gwangju, Korea, March 2017, pp.106-107. [Korean Literature]
|
5 |
Park, GJ, Jung, MJ, Kim, HS, Kim, Y, and Yoo, JY (2012). The Review of Models for Effect of Sediment in Weir Section, Proceedings of the KAIS Spring Conference, Journal of the Korea Academia-Industrial cooperation Society, Korea, May 2012, pp.348-351.
|
6 |
Dingemans, MW (1994). Water wave propagation over uneven bottom, Ph.D. dissertation, Delft University of Technology, Netherlands.
|
7 |
Flather, RA and Heaps, NS (1975). Tidal computations for Morecambe Bay. Geophysical Journal of the Royal Astronomical Society. 42(2), pp.489-517. DOI: https://doi.org/10.1111/j.1365-246X.1975.tb05874.x
DOI
|
8 |
Kim, HS (1993). Three Dimensional Sediment Transport Model, Ph.D. dissertation, University of Liverpool, United Kingdom.
|
9 |
Swart, DH (1976). Predictive equations regarding coastal transports, Proceedings 15th Conference on Coastal Engineering, ASCE, pp.1113-1132.
|
10 |
Ministry of Oceans and Fisheries. (2005) Port and fishing port design standards. [Korean Literature]
|
11 |
Jang, CH (2009). Development of noncohesive sedimentary environment prediction system, Ph.D. dissertation, Kookmin University, Seoul, Korea. [Korean Literature]
|
12 |
The SWAN team. (2008). SWAN user manual. Delft University of Technology, Environmental Fluid Mechanics Section, Version 40.72, available from http://www.fluidmechanics.tudelft.nl/swan/index.htm
|
13 |
KIM, TI (2002). Hydrodynamics and Sedimentation Processes in the Keum River Estuary, West Coast of Korea, Ph.D. dissertation, Sungkyunkwan University, Korea. [Korean Literature]
|
14 |
Deltares systems. (2021). Delft3D-FLOW, User Manual, Version: 3.15, Deltres, Netherlands, pp.7-10.
|
15 |
Whitham, GB (1974). Linear and nonlinear waves, John Wiley & Sons, New York, USA.
|
16 |
Gunsan Regional Office of Oceans and Fisheries. (2002). A Survey Report of Hydrodynamic Characteristic Changes at Keum River Estuary. [Korean Literature]
|
17 |
Gunsan Regional Office of Oceans and Fisheries. (2004). A Survey Report of Hydrodynamic Characteristic Changes at Keum River Estuary. [Korean Literature]
|