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Cho, Kyung Hwa
Water-Environmental Informatics Lab.
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사연호 수질 예측을 위한 2차원 수리·수질모델 구축 및 시나리오 분석

Author(s)
Pyo, JongcheolLee, SanghyeonKim, MinjeongCho, Kyung HwaCho, Hong Je
Issued Date
2015-10
DOI
10.9798/KOSHAM.2015.15.5.1
URI
https://scholarworks.unist.ac.kr/handle/201301/18173
Fulltext
http://koreascience.or.kr/article/ArticleFullRecord.jsp?cn=BJHHD8_2015_v15n5_1
Citation
한국방재학회논문집, v.15, no.5, pp.1 - 8
Abstract
This study estimated water quality constituents especially in CBOD, TN, TP, and Chlorophyll-a in Sayeun reservoir by using CEQUAL- W2 model. With water quality data in surface, middle, and bottom of water body, the model calibration was implemented by changing water quality parameters in the model. Using the calibrated model, we performed scenario analysis to investigate the variation of water quality in respond to different elevations. CBOD, TN, and Chlorophyll-a concentration predicted by the model showed a good agreement with the measured the trend of the concentrations. However, TP estimated was relatively low tendency by the model. We found that water quality (i.e., CBOD, TN, TP, and chlorophyll-a) at both water surface and middle layer was degraded in respond to the decrease of water level by 6.8m. Although results of CBOD in both surface and middle layers decreased to about 2% and 1%, respectively, in the surface layer, TN, TP, and Chlorophyll-a increased to about 4%, 3%, and 51% and, in the middle, TN and TP increased up to 12% and 3%, respectively. In the middle layer, especially, water quality degraded mainly due to increased organic matter from growth, mortality, decay, and sedimentation of algae and anaerobic release of nutrients from sediment. This study demonstrated that water quality could be influenced by controlling water surface elevation, implying that there is a need to control nutrient inflow and re-suspension from sediment in the reservoir.
Publisher
한국방재학회
ISSN
1738-2424

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