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121.
Jung Hyun Choi Seon‐A. Jeong Seok Soon Park 《Journal of the American Water Resources Association》2007,43(6):1444-1454
Abstract: This research investigates possible impacts of enlarged water body according to dam reconstruction on the hydrodynamics and water quality of the reservoir using a laterally averaged, two‐dimensional hydrodynamic and transport model, CE‐QUAL‐W2. The lake was formed by the artificial dam in 1983 for agricultural water supply and is currently under consideration of reconstruction so as to expand the volume of reservoir for flood control as well as water supply in downstream areas. To calibrate and validate the model, field‐collected data were compared with model predictions for water level fluctuations and water temperature during the years of 2001 (from January to December) and 2003 (from March to November). The model results showed a good agreement with field measurements both in calibration and verification. Utilizing the model, impacts of dam reconstruction on the thermal hydrodynamics and turbid current were predicted. From the model results, dam reconstruction limited the depth of thermal stratification below 10 meter and formed steep temperature gradient between epilimnion and hypolimnion. The restricted thermal stratification persisted up to the end of September. This result indicated that thermal stratification would become stronger during summer and stay longer after dam reconstruction. In addition, the restricted thermal stratification caused vertical circulation of water mixing lower than 10 meter and isolated the upper water layer from the lower water layer which increased the volume of hypolimnetic water with low temperature. The vertical circulation near the surface also mitigated propagation of density plume within the depth of 10 m which would remain the hypolimnetic water clean. 相似文献
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123.
This article aims to describe the influence of di use pollution on the temporal and spatial characteristics of natural organic matter
(NOM) in a stratified dam reservoir, the Daecheong Dam, on the basis of intensive observation results and the dynamic water quality
simulation using CE-QUAL-W2. Turbidity is regarded as a comprehensive representation of allochothonous organic matter from di use
sources in storm season because the turbidity concentration showed reasonable significance in a statistical correlation with the UV
absorbance at 254 nm and total phosphorus. CE-QUAL-W2 simulation results showed good consistency with the observed data in terms
of dissolved organic matter (DOM) including refractory dissolved organic carbon (RDOC) and labile DOC and also well explained the
internal movement of constituents and stratification phenomenon in the reservoir. Instead turbidity and NOM were related well in the
upper region of the reservoir according to flow distance, gradually as changing to dissolved form of organic matter, RDOM a ected
organic matter concentration of reservoir water quality compared to turbidity. To control the increase of soluble organic matters in the
dam reservoir, appropriate dam water discharge gate operation provided e ective measurement. Because of the gate operation let avoid
the accumulation of organic matter within a dam reservoir by shorten of turbid regime retention time. 相似文献