Development of a Decision Support System for Turbid Water Management through Joint Dam Operation

  • Kim, Jeong-Kon (Korea Institute of Water and Environment, Korea Water Resources Cooperation (K-water)) ;
  • Ko, Ick-Hwan (Water Resources and Environmental Research Center, Korea Institute of Water and Environment, Korea Water Resources Cooperation (K-water)) ;
  • Yoo, Yang-Soo (Korea Institute of Water and Environment, Korea Water Resources Cooperation (K-water))
  • Published : 2007.05.17

Abstract

In this study we developed a turbidity management system to support the operation for effective turbid water management. The decision-making system includes various models for prediction of turbid water inflow, effective reservoir operation using the selective withdrawal facility, analysis of turbid water discharge in the downstream. The system is supported by the intensive monitoring devices installed in the upstream rivers, reservoirs, and downstream rivers. SWAT and HSPF models were constructed to predict turbid water flows in the Imha and Andong catchments. CE-QUAL-W2 models were constructed for turbid water behavior prediction, and various analyses were conducted to examine the effects of the selective withdrawal operation for efficient high turbid water discharge, turbid water distribution under differing amount and locations of turbid water discharge. A 1-dimensional dynamic water quality model was built using Ko-Riv1 for simulation of turbidity propagation in the downstream of the reservoirs, and 2-dimensional models were developed to investigate the mixing phenomena of two waters discharged from the Andong and Imha reservoirs with different temperature and turbidity conditions during joint dam operation for reducing the impacts of turbid water.

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