DEVELOPING A MATHEMATICAL MODEL FOR THE PROCESS OF DEVELOPING A MATHEMATICAL MODEL FOR THE PROCESS OF SEDIMENTARY TANKS

DEVELOPING A MATHEMATICAL MODEL FOR THE PROCESS OF DEVELOPING A MATHEMATICAL MODEL FOR THE PROCESS OF SEDIMENTARY TANKS

The model is reformulated by means of stochastic differential equations, and the parametersare estimated by a maximum likelihood method.VESILIND (1968; 1979) proposed a sludge settling velocity model of exponential form. During recent years,several refinements to the original model have been propose...

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Bibliographic Details
Main Author: Valeria Victoria IOVANOV
Format: Article
Language:English
Published: Academica Brancusi 2013-05-01
Series:Fiabilitate şi Durabilitate
Subjects:
matrix
vectorial
differential
non-convex
Online Access:http://www.utgjiu.ro/rev_mec/mecanica/pdf/2013-01.Supliment/68_Valeria%20Victoria%20Iovanov1.pdf
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Summary:The model is reformulated by means of stochastic differential equations, and the parametersare estimated by a maximum likelihood method.VESILIND (1968; 1979) proposed a sludge settling velocity model of exponential form. During recent years,several refinements to the original model have been proposed, see e.g. GRIJSPEERDT et al. (1995); DUPONTand DAHL (1995) EKAMA et al. (1997). In the proposed models several layers in the settling tank areincorporated to permit the calculation of SS profiles over the tank depth and predict the SS concentrations in thereturn sludge and in the effluent from the clarifier.Here, the original VESILIND model combined with a simple suction depth model is used to enable predictionof the SS concentration in the effluent from the tank. In order to make the model applicable for real time controlpurposes, only two layers of variable height in the tank are considered
ISSN:1844-640X

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