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Parameter Estimation of Coastal Water Quality Model Using the Inverse Theory  

Cho, Hong-Yeon (Voastal and Harbour Engineering Research Lab., Korea Ocean R&D Institute)
Cho, Bum-Jun (School of Civil, Environmental & Urban Engineering, Wonkwang Univ.)
Jeong, Shin-Taek (School of Civil, Environmental & Urban Engineering, Wonkwang Univ.)
Publication Information
Journal of Korean Society of Coastal and Ocean Engineers / v.17, no.3, 2005 , pp. 149-157 More about this Journal
Abstract
Typical water quality (WQ) parameters defined in the governing equation of the WQ model are the pollutant loads from atmosphere and watersheds, pollutant release rates from sediment, diffusion coefficient and reaction coefficient etc. The direct measurement of these parameters is very difficult as well as requires high cost. In this study, the pollutant budget equation including these parameters was used to construct the linear simultaneous equations. Based on these equations, the inverse problems were constructed and WQ parameter estimation method minimizing the sum of squared errors between the computed and observed amounts of the mass changes was suggested. WQ parameters, i.e., the atmospheric pollutant loads, sediment release rates, diffusion coefficients and reaction coefficient, were estimated using .this method by utilizing the vertical concentration profile data which has been observed in Cheonsu Bay and Ulsan Port. Values of the estimated parameters show a large temporal variation. However, this technique is persuasive in that the RHS (root mean square) error was less than $5.0\%$ of the observed value ranges and the agreement index was greater than 0.95.
Keywords
inverse problem; model parameters; pollutant loads; pollutant release rates, pollutant budget equation;
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