References
- 국립환경과학원(2008). 물환경시스템, http://water.nier.go.kr/.
- 박용우, 조양기, 신용식, 이창희(2006). 해수교환에 따른 영산강 하구역 염분 확산 영향 범위 수치 실험, 한국수자원학회논문집, pp. 557-561.
- 박희영(2008). 대산항의 EFDC를 이용한 3차원 준설 부유사이송에 관한 연구, 석사학위논문, 군산대학교, pp. 32-55.
- 서동일, 서미진, 구명서, 우제균(2008). EFDC-Hydro와 WASP7.2를 이용한 금강하류의 수리-수질 연계 모델링, 상하수도학회지, 23(1), pp. 15-22.
- 이정우(2005). 3차원 수리.수질 모형, EFDC를 이용한 저수지의 수질모의에 관한 연구, 석사학위논문, 충남대학교, pp. 32-68.
- 이화영(2008). 새만금호 완공에 따른 수질변화 모의, 석사학위논문, 군산대학교, pp. 14-60.
- 전지혜, 정세웅, 박형석, 장정렬(2011). 새만금호 수질예측 모의를 위한 EFDC 모형의 평가, 수질보전 한국물환경학회지, 27(4), pp. 445-460.
- 정희영(2010). EFDC 모형을 이용한 새만금 담수호 퇴적변화 분석, 석사학위논문, 충북대학교, pp. 17-23.
- 한국농어촌공사(2008). 새만금수역 수질환경조사 및 관리연구(IV), pp. 3-10.
- Borsuk, M. E., Stow, C. A., and Reckhow, K. H. (2004). A Bayesian Network of Eutrophication Models for Synthesis, Prediction, and Uncertainty Analysis, Ecological Modelling, 173, pp. 219-239.
- Chapra, C. S. (2002). Surface Water Quality Modeling, Mac Graw Hill, pp. 26-51.
- Chung, S. W., Hopsey, M. R., and Imberger, J. (2009). Modeling the Propagation of Turbid Density Inflows into a Stratified Lake: Daecheong Reservoir, Korea, Enviromental Modelling & Software, 24, pp. 1467-1482
- Cole, T. M. and Buchak, E. M. (1995). CE-QUAL-W2: A Two-dimensional, Laterally Averaged, Hydrodynamic and Water Quality Model, User's Manual, U.S. Army Engineers Waterways Experiment Station, Vicksburg, MS, pp. A-1-118.
- Hamrick, J. M. (1992). A Three Dimensional Environmental Fluid Dynamics Computer Code; Theoretical and Computational Aspects, Special Report. The College of William and Mary, Virginia Institute of Marine Science, Gloucester Point, VA, pp. 52-60.
- Hayter, E. J. and Svirsky, S. C. (2006). Evaluation of The State-of-The Art Contaminated Sediment Transport and Fate Modeling System, United States Environmental Protection Agency, pp. 12-70.
- Hodges, B. and Dallimore, C. (2010). ELCOM: Estuary, Lake and Coastal Ocean Model User's Manual, Centre for Water Research University of Western Australia, pp. 1-61.
- Jang, J. C., Jeffries, H., Byun, E., and Pleim, J. E. (1995). Sensitivity of Ozone to Model Grid Resolution-I.Application of High Resolution Reglonal Acid Deposition Model, Atmospheric Environment, 29(21), pp. 3085-3100.
- Ji, Z. G., John, H. H., and James, P. (2002). Sediment and Metals Modeling in Shallow River, Journal of Environmental Engineering, 128, pp. 105-109.
- Jiang, H. Z. and Shen, Y. M. (2009), Numerical Study on Salinity Stratification in the Ouijang River Estuary, Journal of Hydrodynamics, 21(6), pp. 835-842.
- Kuo, W. L., Steenjuis, T. S., McCulloch, C. E., Mohler, C. L., Weinstein, D. A., DeGloria, S. D., and Swaney, D. P. (1999). Effect of Grid Size on Runoff and Soil Moisture for a Variable Source Area Hydrology Model, Water Resources Research, 35(11), pp. 3419-3428.
- Miyakoda, K., Strickler, R. F., Nappo, C. J., Baker, P. L., and Hembee, G. D. (1971). The Effect of Horizontal Grid Resolution in an Atmospheric Circulation Model, Journal of the Atmospheric Sciences, 28, pp. 481-499.
- Molnar, D. K. and Juilen, P. Y. (2000). Grid-size Effects on Surface Runoff Modeling, Journal of Hydrologic Engineering, 5(1), pp. 8-16.
- Reckhow, K. H. (1994). Importance of Scientific Uncertainty in Decision Making, Environmental Management, 18(2), pp. 161-166.
- Sankaranarayanan, S. and Spaulding, M. L. (2003). A Study of the Effects of Grid Non-orthogonality on the Solution of Shallow Water Equations in Boundary-fitted Coordinate Systems, Journal of Computational Physics, 184, pp. 289-320.
- Tetra Tech, Inc. (2007). The Environmental Fluid Dynamics Code Theory and Computation, A Report to the U.S Environmental Protection Agency, Fairfax, VA, pp. 10-230.
- Usul, N. and Pasaogullari, O. (2004). Effect of Map Scale and Grid Size for Hydrological Modeling, Water Resources and Environment, 289, pp. 91-100.
- Vazquez, R. F., Feyen, L., Jehen, J., and Refsgaard, J. C. (2002). Effect of Grid Size on Effective Parameters and Model Performance of the MIKE-SHE Code, Hydrological Processes, 16, pp. 355-372.
- Werner, M. G. F. (2001). Impact of Grid Size in Gis Based Flood Extent Mappng Using a 1D Flow Model, Physics and Chemistry of the Earth Part(B): Hydrology, Oceans and Atmosphere, 26(7-8), pp. 517-522.
-
Wickett, M. E., Caldeira, K., and Duffy, P. B. (2003). Effect of Grid Resolution on Simulation of Oceanic CFC-11 Uptake and Direct Injection of Anthropogenic
$CO_2$ , Journal of Geophysical Research, 108(C6), pp. 20-(1-12). - Wool, T. A., Davie, S. R., and Rodriguez, H. N. (2003). Development of Three-dimensional Hydrodynamic and Water Quality Models to Support Total Maximum Daily Load Decision Process for the Neuse River Estuary. North Carolina, Journal of Water Resources Planning and Management-ASCE, 129(4), pp. 295-306.
- Zhen, G. J. (2007). Hydrodynamics and Water Quality Modeling Rivers, Lakes, and Extuaries, Wiley-Interscience, pp. 42-60.