{"title":"Optimum coagulant forecasting by modeling jar test experiments using ANNs","authors":"S. Haghiri, Amin Daghighi, Sina Moharramzadeh","doi":"10.5194/DWES-11-1-2018","DOIUrl":null,"url":null,"abstract":"Abstract. Currently, the proper utilization of water treatment plants and\noptimizing their use is of particular importance. Coagulation and\nflocculation in water treatment are the common ways through which the use of\ncoagulants leads to instability of particles and the formation of larger and\nheavier particles, resulting in improvement of sedimentation and filtration\nprocesses. Determination of the optimum dose of such a coagulant is of\nparticular significance. A high dose, in addition to adding costs, can cause\nthe sediment to remain in the filtrate, a dangerous condition according to\nthe standards, while a sub-adequate dose of coagulants can result in the\nreducing the required quality and acceptable performance of the coagulation\nprocess. Although jar tests are used for testing coagulants, such experiments\nface many constraints with respect to evaluating the results produced by\nsudden changes in input water because of their significant costs, long time\nrequirements, and complex relationships among the many factors (turbidity,\ntemperature, pH, alkalinity, etc.) that can influence the efficiency of\ncoagulant and test results. Modeling can be used to overcome these\nlimitations; in this research study, an artificial neural network (ANN)\nmulti-layer perceptron (MLP) with one hidden layer has been used for modeling\nthe jar test to determine the dosage level of used coagulant in water\ntreatment processes. The data contained in this research have been obtained\nfrom the drinking water treatment plant located in Ardabil province in\nIran. To evaluate the performance of the model, the mean squared\nerror (MSE) and correlation coefficient ( R2 ) parameters have been used. The\nobtained values are within an acceptable range that demonstrates the high\naccuracy of the models with respect to the estimation of water-quality\ncharacteristics and the optimal dosages of coagulants; so using these models\nwill allow operators to not only reduce costs and time taken to perform\nexperimental jar tests but also to predict a proper dosage for coagulant\namounts and to project the quality of the output water under real conditions.","PeriodicalId":53581,"journal":{"name":"Drinking Water Engineering and Science","volume":"11 1","pages":"1-8"},"PeriodicalIF":0.0000,"publicationDate":"2018-01-29","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"42","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Drinking Water Engineering and Science","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.5194/DWES-11-1-2018","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q2","JCRName":"Engineering","Score":null,"Total":0}
引用次数: 42
Abstract
Abstract. Currently, the proper utilization of water treatment plants and
optimizing their use is of particular importance. Coagulation and
flocculation in water treatment are the common ways through which the use of
coagulants leads to instability of particles and the formation of larger and
heavier particles, resulting in improvement of sedimentation and filtration
processes. Determination of the optimum dose of such a coagulant is of
particular significance. A high dose, in addition to adding costs, can cause
the sediment to remain in the filtrate, a dangerous condition according to
the standards, while a sub-adequate dose of coagulants can result in the
reducing the required quality and acceptable performance of the coagulation
process. Although jar tests are used for testing coagulants, such experiments
face many constraints with respect to evaluating the results produced by
sudden changes in input water because of their significant costs, long time
requirements, and complex relationships among the many factors (turbidity,
temperature, pH, alkalinity, etc.) that can influence the efficiency of
coagulant and test results. Modeling can be used to overcome these
limitations; in this research study, an artificial neural network (ANN)
multi-layer perceptron (MLP) with one hidden layer has been used for modeling
the jar test to determine the dosage level of used coagulant in water
treatment processes. The data contained in this research have been obtained
from the drinking water treatment plant located in Ardabil province in
Iran. To evaluate the performance of the model, the mean squared
error (MSE) and correlation coefficient ( R2 ) parameters have been used. The
obtained values are within an acceptable range that demonstrates the high
accuracy of the models with respect to the estimation of water-quality
characteristics and the optimal dosages of coagulants; so using these models
will allow operators to not only reduce costs and time taken to perform
experimental jar tests but also to predict a proper dosage for coagulant
amounts and to project the quality of the output water under real conditions.
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