Simulation of Water Redistribution for the Resized Beneficiary Area of a Large Scale Agricultural Reservoir |
Sung, Muhong
(Chonnam Regional Headquarter, Korea Rural Community Corporation (KRC))
Jeung, Minhyuk (Department of Rural and Bio-Systems Engineering, Chonnam National University) Beom, Jina (Department of Rural and Bio-Systems Engineering, Chonnam National University) Park, Taesun (Kangwon Regional Headquarter, Korea Rural Community Corporation (KRC)) Lee, Jaenam (Rural Research Institute, Korea Rural Community Corporation (KRC)) Jung, Hyoungmo (Project Planning Office, Korea Rural Community Corporation (KRC)) Kim, Youngjoo (Department of Cadastre and Civil Engineering, VISION College of Jeonju) Yoo, Seunghwan (Department of Rural and Bio-Systems Engineering, Chonnam National University) Yoon, Kwangsik (Department of Rural and Bio-Systems Engineering, Chonnam National University) |
1 | Kim, S. M., S. J. Kim, Y. W. Kim, T. Y. Park, S. M. Kim, K, W. Park, and M. W. Jang, 2011. Potential release of environmental flow through irrigation reservoir. Journal of the Korean Society of Agricultural Engineers (KSAE) 53(6): 101-109 (in Korean). doi:10.5389/KSAE.2011.53.6.101. DOI |
2 | Bang, N. K., 2019. Development and application of field management model for agricultural reservoir. MS. diss., Hankyong National University (in Korean). |
3 | Chung, S. O., and S. H. Son, 2001. Return flow analysis of paddy field by water balance method. Journal of the Korean Society of Agricultural Engineers (KSAE) 43(2): 59-68 (in Korean). |
4 | Hong, E. M., J. Y. Choi, W. H. Nam, S. H. Lee, J. K. Choi, and J. T. Kim, 2015. Analysis of water loss rate and irrigation efficiency in irrigation canal at the Dong-Jin district. Journal of the Korean Society of Agricultural Engineers (KSAE) 57(2): 93-101 (in Korean). doi:10.5389/KSAE.2015.57.2.093. DOI |
5 | Hong, E. M., W. H. Nam, J. Y. Choi, and J. T. Kim, 2014. Evaluation of water supply adequacy using real-time water level monitoring system in paddy irrigation canals. Journal of the Korean Society of Agricultural Engineers (KSAE) 56(4): 1-8 (in Korean). doi:10.5389/KSAE.2014.56.4.001. DOI |
6 | Kim, H. D., 2018. Development trend of intelligent irrigation and drainage system. Rural and Environmental Engineering Journal 131: 89-103 (in Korean). |
7 | Kim, S. J., P. S. Kim, and C. Y. Lim, 2004. Behaviour anaylsis of irrigation reservoir using open water management program. Journal of the Korean Society of Agricultural Engineers (KSAE) 46(1): 3-13 (in Korean). doi:10.5389/KSAE.2004.46.1.003. DOI |
8 | KORICO (Korea Agricultural and Rural Infrastructure Corporation), 2002. Yong San Gang comprehensive agricul tural development project (in Korean). |
9 | Shin, J. H., W. H. Nam, N. K. Bang, H, J. Kim, H. U. An, J. W. Do, and K, Y. Lee, 2020. Assessment of water distribution and irrigation efficiency in agricultural reservoir using SWMM model. Journal of the Korean Society of Agricultural Engineers (KSAE) 62(3): 1-13 (in Korean). doi:10.5389/KSAE.2020.62.3.001. DOI |
10 | Park, J. H., 2017. Development of 4-dimensional agricultural water management system by functional improvement of irrigation facilities. Ph.D. diss., Konkuk University (in Korean). |
11 | Lee, J. and J. Noh, 2015. Evaluating water supply capacity of embankment raised reservoir on climate change. Journal of the Korean Society of Agricultural Engineers (KSAE) 57(4): 73-84 (in Korean). doi:10.5389/KSAE.2015.57.4.073. DOI |
12 | Nam, W. H., H. J. Kwon, and K. S. Choi, 2018. Reevaluation of design frequency of drought and water supply safety for agricultural reservoirs under changing climate and farming methods in paddy field. Journal of the Korean Society of Agricultural Engineers (KSAE) 60(1): 121-131 (in Korean). doi:10.5389/KSAE.2018.60.1.121. DOI |
13 | Shim, M. P., O. I. Kwon, and H. K. Lee, 1995. Reservoir operation by variable restricted water level during flood period. Journal of the Korea Water Resources Association, 28(6): 217-228 (in Korean). |
14 | Kang, M. S., 2015. Feasibility study on irrigation system flow analysis through SWMM simulation. Ph.D. diss., Konkuk University (in Korean). |
15 | Kang, T., and S. Lee, 2012. A study for a reasonable applic ation of the SWMM to watershed runoff event simulation. Journal of Korean Society of Hazard Mitigation 12(6): 247-258 (in Korean). doi:10.9798/KOSHAM.2012.12.6.247. DOI |
16 | Lee, D, R., J. W. Moon, D. H . Lee, and J. H . Ahn, 2006. Development of water supply capacity index to monitor droughts in a reservoir. Journal of the Korea Water Resources Association 39(3): 199-214 (in Korean). doi:10.3741/JKWRA.2006.39.3.199. DOI |
17 | Lee, Y., 2005. An investigative study for the estimation of irrigation water requirement in paddy land. Ph.D. diss., Konkuk university (in Korean). |
18 | Moriasi, D. N., J. G. Arnold, M. W. Van Liew, R. L. Bingner, R. D. Harmel, and T. L. Veith, 2007. Model evaluation guidelines for systematic quantification of accuracy in watershed simulations. Transactions of the ASABE 50(3): 885-900. doi:10.13031/2013.23153. DOI |
19 | MAFRA (Ministry of Agricultural, Food and Rural Affairs), 2018. A study on water conservation design standard for adaptation to climate change (in Korean). |
20 | MAFRA (Ministry of Agricultural, Food and Rural Affairs), 2019. Agriculture, food and rural affairs. statistics yearbook (in Korean). |
21 | Nam, W. H., E. M. Hong, and J. Y. Choi, 2016. Assessment of water delivery efficiency in irrigation canals using performance indicators. Irrigation Science 34: 129-143. doi:10.1007/s00271-016-0488-6. DOI |
22 | Rossman, L. A., 2010. Storm water management model user's manual version 5.0. EPA/600/R-05/040, National risk management research laboratory, environmental protection agency, Cincinnati, Ohio. |
23 | Nam, W. H., 2020. Direction of improvement of agricultural water balance model, water for future, Journal of the Korea Water Resources Association, 53(4): 33-42 (in Korean). |
24 | Nam, W. H., J. Y. Choi, E. M. Hong, and J. T. Kim, 2013. Assessment of irrigation efficiencies using smarter water management. Journal of the Korean Society of Agricultural Engineers (KSAE) 55(4): 45-53 (in Korean). doi:10.5389/KSAE.2013.55.4.045. DOI |
25 | Nam, W. H., J. Y. Choi, S .G. Choi, M. W. Hang, N. H. Lee, and K. D. Ko, 2011. A survey on irrigation timing and water saving strategies of agricultural reservoirs. Korean National Committee on Irrigation and Drainage 18(1): 81-93 (in Korean). |
26 | Nam, W. H., T. G. Kim, E. M. Hong, M. J. Hayes, and M. D. Svoboda, 2015. Water supply risk assessment of agricultural reservoirs using irrigation vulnerability model and cluster analysis. Journal of the Korean Society of Agricultural Engineers (KSAE) 57(1): 59-67 (in Korean). doi:10.5389/KSAE.2015.57.1.059. DOI |
27 | Nam, W. H ., T. Kim, E. M. H ong, and J. Y. Choi, 2017. Regional climate change impacts on irrigation vulnerable season shifts in agricultural water availability for South Korea. Water 9(10): 735. doi:10.3390/w9100735. DOI |
28 | Kim, S. R., M. W. Jang, S. J. Kim, and S. J. Bae, 2017. Spatial and temporal analysis of drought using the storage data of agricultural reservoirs in Chungnam province in 2015. Journal of the Korean Society of Agricultural Engineers (KSAE) 59(2): 29-36 (in Korean). doi:10.5389/KSAE.2017.59.2.029. DOI |
29 | Santhi, C., J. G. Arnold, J. R. Williams, W. A. Dugas, R. Srinivasan, and L. M. Hauck, 2007. Validation of the SWAT model on a large river basin with point and nonpoint sources. Journal of the American Water Resources Association 37(5): 1169-1188. doi:10.1111/j.1752-1688.2001.tb03630.x. DOI |
30 | Yoo, S. H., 2009. Analyzing agricultural drought affected by climate change. Ph.D. diss., Seoul National University (in Korean). |
31 | Van Liew, M. W., J. G. Arnold, and J. D. Garbrecht, 2003. Hydrologic simulation on agriculture watersheds: choosing between two models. Transactions of the ASAE. 46(6): 1539-1551. doi:10.13031/2013.15643. DOI |