MODELING OF OPTIMAL COAGULANT DOSE USING ARTIFICIAL NEURAL NETWORK, APPLICATION TO WATER TREATMENT PLANT OF GUELMA
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Date
2023-12-11
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University of Eloued
Abstract
Surface water from the Hammam Debagh dam is one of the main sources of drinking water
for the population of the town of Guelma. The aim of this study is to apply artificial neural
networks to predict the coagulant dose for the potabilisation process at the Hammam Debaghe
plant, using the various quality parameters of the raw water received from the Bouhamdane
dam reservoir. The application of this model for coagulant dose prediction is of particular
interest given its simplicity and ease of use for estimating the daily coagulant dose of the
treatment process. These results can be a very good indicator for operators and can be used to
help manage and operate the various compartments of the treatment process. Overall, the
results show that RNA models are promising alternatives for coagulant dose estimation.
However, further improvements to RNA structures need to be investigated. However, further
improvements to the RNA structures need to be investigated. The input data for the MCP
model are pH, temperature, turbidity and conductivity in the raw water at the plant inlet. The
model built to predict the coagulant dose of the treatment process in the Hammam Debaghe
treatment plant consists of 4 neurons in the input layer, 9 neurons in the hidden layer, and 1
neuron in the output layer. The results of the model show that the regression coefficient R =
0.8066, indicates that the PMC model is able to respond well to the training data and is able to
reconcile them. The PMC model is therefore able to solve the specific problem of inputoutput data mapping. Using this model will therefore enable operators to: Reduce the costs
and time required to carry out experimental Jar-tests; as well as predict an appropriate dosage
for the quantities of coagulant to ensure the production of drinking water in compliance with
Algerian standards.
Description
Surface water from the Hammam Debagh dam is one of the main sources of drinking water
for the population of the town of Guelma. The aim of this study is to apply artificial neural
networks to predict the coagulant dose for the potabilisation process at the Hammam Debaghe
plant, using the various quality parameters of the raw water received from the Bouhamdane
dam reservoir. The application of this model for coagulant dose prediction is of particular
interest given its simplicity and ease of use for estimating the daily coagulant dose of the
treatment process. These results can be a very good indicator for operators and can be used to
help manage and operate the various compartments of the treatment process. Overall, the
results show that RNA models are promising alternatives for coagulant dose estimation.
However, further improvements to RNA structures need to be investigated. However, further
improvements to the RNA structures need to be investigated. The input data for the MCP
model are pH, temperature, turbidity and conductivity in the raw water at the plant inlet. The
model built to predict the coagulant dose of the treatment process in the Hammam Debaghe
treatment plant consists of 4 neurons in the input layer, 9 neurons in the hidden layer, and 1
neuron in the output layer. The results of the model show that the regression coefficient R =
0.8066, indicates that the PMC model is able to respond well to the training data and is able to
reconcile them. The PMC model is therefore able to solve the specific problem of inputoutput data mapping. Using this model will therefore enable operators to: Reduce the costs
and time required to carry out experimental Jar-tests; as well as predict an appropriate dosage
for the quantities of coagulant to ensure the production of drinking water in compliance with
Algerian standards.
Keywords
Learning, coagulant, optimal dose, neural networks, turbidity.
Citation
BOUSLAH Soraya, DJEDAOUNE Amel, Khechekhouche Ali. MODELING OF OPTIMAL COAGULANT DOSE USING ARTIFICIAL NEURAL NETWORK, APPLICATION TO WATER TREATMENT PLANT OF GUELMA. International Pluridsciplinary PhD Meeting IPPM 23. Faculty of technology. University of Eloued [visited in ../../…]. Available from[ Copy the link here]