AGRICULTURAL WATER-GATE MANAGEMENT FOR OPERATIONAL FLOOD PROTECTION IN LOW-LYING PADDIES
DOI:
https://doi.org/10.11113/jt.v76.5950Keywords:
Inland flooding, Inundation damage, inundation water level, hydrological distributed model, Lao PDRAbstract
It is essential to assess in influence of water-gate operations on inundation processes during the wet season to mitigate inundation damage. Here, a numerical analysis method for modelling regional drainage through water gates was developed by integrating the Distributed Water Circulation Model incorporating Agricultural Water Use (DWCM-AgWU). The inundation process was reproduced using an H–V curve (flooding water level verses area volume). The developed model was applied to the low-lying paddy areas of the Nam Cheng River basin in the Lao PDR. This study area is a sub-basin of the Nam Ngum River, with which the Nam Cheng River merges downstream of the Nam Ngum 1 dam. Fourteen agricultural water gates of slide-type at the river outlet function as a storage facility for irrigation water for the paddies during the dry season and as a flood protection measures against backwater effects from the main stream of the Nam Ngum River during the wet season. However, current gate operation is based on empirical knowledge without reference to filed observational data. The simulated results revealed that the outer water level did not exceed the inner level, if the difference between the inner and outer water levels was > 4 m on operational days. Several feedback control strategies combined with gate opening heights, the number of open gates, operation intervals, and the threshold inner and outer water level differences were examined focusing on inundation damage within the area and drainage volume through the gates.
References
CRED. 2015. The OFDA/CRED-International Disaster Database. [Online]. From: www.emdat.be. [Accessed on 1 July 2015].
Mekong River Commission. 1997. Forest Cover Monitoring Project MRC/GTZ: Technical Notes 2–Interpretation and Delineation from Satellite Images. Vientiane, Lao PDR.
Taniguchi, T., Masumoto, T., Yoshida, T., Horikawa, N., and K. Shimizu. 2009. Development of a Distributed Water Circulation Model Incorporating Various Paddy Water Uses, Part 3: Structure of the Total Model and Estimation of Agricultural Water Circulation. Journal of Japan Society of Hydrology and Water Resources. 22(2): 126-140. (in Japanese with English abstract).
Masumoto, T., Taniguchi, T., Horikawa, N., Yoshida, T., and K. Shimizu. 2009. Development of a Distributed Water Circulation Model for Assessing Human Interaction in Agricultural Water Use. In Taniguchi, M. Burnttt, W.C. Fukushima, Y. Haigh, M. and Umezawa, Y. (ed). Headwaters to the Ocean: Taylor and Francis.
Kudo, R., Masumoto, T., Horikawa, N., and T. Yoshida. 2013. Modeling of Paddy Water Management in Large-reservoir Irrigation Areas and its Integration into Distributed Water Circulation Model. Applied Hydrology. 25: 61-70. (in Japanese with English abstract).
Yoshida, T., Masumoto, T., Horikawa, N., Akutsu, H., Bounlom, V., and B. Koumphonh. 2012. Coupling Scheme of Inundation Processes into a Basin-wide Hydrological Model for Low-lying Rivers. Irrigation, Drainage and Rural Engineering Journal. 281: 27-34. (in Japanese with English abstract).
Vongphet, J., Masumoto, T., Minakawa, H., and R. Kudo. 2014. Application of a DWCM-AgWU Model to Chao Phraya River Basin with Large Irrigation Paddies and Dams, Applied Hydrology. 26: 11-22.
Kudo, R., Masumoto, T., Horikawa, N., and T. Yoshida. 2013. Assessment of Combined Impact of Climate Change and Water Resources Development on Hydrological Cycle in the Nam Ngum River Basin. Irrigation, Drainage and Rural Engineering Journal. 283: 57-66. (in Japanese with English abstract).
Ministry of Land, Infrastructure, Transport and tourism. 2014. River Erosion Control Technical Standard. [Online]. From: http://www.mlit.go.jp/river/shishin_guideline/gijutsu/gijutsukijunn/chousa/. [Accessed on 1 July 2015] (in Japanese).
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