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http://dx.doi.org/10.3741/JKWRA.2008.41.3.293

Development and Validation of A Decision Support System for the Real-time Monitoring and Management of Reservoir Turbidity Flows: A Case Study for Daecheong Dam  

Chung, Se-Woong (Dept. of Env. Engrg., Chungbuk National University)
Jung, Yong-Rak (Dept. of Env. Engrg. Chungbuk National University)
Ko, Ick-Hwan (Hydrosystem Engineering Center, Korea Institute of Water & Environment)
Kim, Nam-Il (Websolus)
Publication Information
Journal of Korea Water Resources Association / v.41, no.3, 2008 , pp. 293-303 More about this Journal
Abstract
Reservoir turbidity flows degrade the efficiency and sustainability of water supply system in many countries located in monsoon climate region. A decision support system called RTMMS aimed to assist reservoir operations was developed for the real time monitoring, modeling, and management of turbidity flows induced by flood runoffs in Daecheong reservoir. RTMMS consists of a real time data acquisition module that collects and stores field monitoring data, a data assimilation module that assists pre-processing of model input data, a two dimensional numerical model for the simulation of reservoir hydrodynamics and turbidity, and a post-processor that aids the analysis of simulation results and alternative management scenarios. RTMMS was calibrated using field data obtained during the flood season of 2004, and applied to real-time simulations of flood events occurred on July of 2006 for assessing its predictive capability. The system showed fairly satisfactory performance in reproducing the density flow regimes and fate of turbidity plumes in the reservoir with efficient computation time that is a vital requirement for a real time application. The configurations of RTMMS suggested in this study can be adopted in many reservoirs that have similar turbidity issues for better management of water supply utilities and downstream aquatic ecosystem.
Keywords
Turbidity flow control; Decision support system; Reservoir operation; Real time modeling;
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