Numerical Model of Water Transparency in the Water Village Living Room in Yangtze River Delta
The Water Village Living Room is a core demonstration zone for integrated ecological and high-quality de-velopment in the Yangtze River Delta(Shanghai-Jiangsu-Zhejiang region).Enhancing its water transparency and sensory appeal remains a challenge.On the basis of water quality monitoring and suspended solids settling experi-ments,we examined the key factors affecting water transparency and constructed a numerical model for assessing transparency in the Water Village Living Room through multiple regression analysis.Findings highlight that waters outside the polder areas exhibit lower transparency compared to those within.The concentration of suspended solids emerges as the principal transparency determinant,evidenced by a strong inverse relationship(Pearson's correla-tion coefficient reaching-0.48)with transparency.Chlorophyll concentration ranks as a secondary influence.Fur-thermore,we established the correlations between sedimentation coefficient of suspended solids and both their con-centrations and water flow velocity for varied locations—inside polders,outside polders,and lakes.These correla-tions demonstrate robustness,with coefficients of determination(R2)exceeding 0.8.The developed numerical mod-el not only elucidates water transparency distribution patterns in the Water Village Living Room but also serves as a vital tool for water eco-environment restoration and the treatment of eutrophic water bodies.
Water Village Living Roomwater transparencyconcentration of suspended solidsChlorophyll con-centrationnumerical model
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