Artificial neural networks for water quality soft-sensing in wastewater treatment: a review

Predictive performance modeling of Habesha brewery wastewater treatment plant using artificial neural networks

10.31221/osf.io/cjv7p ◽

2019 ◽

Author(s):

Chem Int

Keyword(s):

Neural Networks ◽

Water Quality ◽

Wastewater Treatment ◽

Artificial Neural Networks ◽

Performance Modeling ◽

Predictive Performance ◽

Mathematical Tool ◽

Effluent Water ◽

Artificial Neural

Recently, process control in wastewater treatment plants (WWTPs) is, mostly accomplished through examining the quality of the water effluent and adjusting the processes through the operator’s experience. This practice is inefficient, costly and slow in control response. A better control of WTPs can be achieved by developing a robust mathematical tool for performance prediction. Due to their high accuracy and quite promising application in the field of engineering, Artificial Neural Networks (ANNs) are attracting attention in the domain of WWTP predictive performance modeling. This work focuses on applying ANN with a feed-forward, back propagation learning paradigm to predict the effluent water quality of the Habesha brewery WTP. Data of influent and effluent water quality covering approximately an 11-month period (May 2016 to March 2017) were used to develop, calibrate and validate the models. The study proves that ANN can predict the effluent water quality parameters with a correlation coefficient (R) between the observed and predicted output values reaching up to 0.969. Model architecture of 3-21-3 for pH and TN, and 1-76-1 for COD were selected as optimum topologies for predicting the Habesha Brewery WTP performance. The linear correlation between predicted and target outputs for the optimal model architectures described above were 0.9201 and 0.9692, respectively.

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Draw on artificial neural networks to assess and predict water quality

IOP Conference Series Earth and Environmental Science ◽

10.1088/1755-1315/612/1/012028 ◽

2020 ◽

Vol 612 ◽

pp. 012028

Author(s):

A Fernandes ◽

H Chaves ◽

R Lima ◽

J Neves ◽

H Vicente

Keyword(s):

Neural Networks ◽

Water Quality ◽

Artificial Neural Networks ◽

Artificial Neural

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Integrated Wastewater Treatment Plant Performance Evaluation Using Artificial Neural Networks

Water Science & Technology ◽

10.2166/wst.1999.0327 ◽

1999 ◽

Vol 40 (7) ◽

pp. 55-65 ◽

Cited By ~ 12

Author(s):

Mohamed F. Hamoda ◽

Ibrahim A. Al-Ghusain ◽

Ahmed H. Hassan

Keyword(s):

Neural Networks ◽

Wastewater Treatment ◽

Artificial Neural Networks ◽

Wastewater Treatment Plant ◽

Municipal Wastewater ◽

Wastewater Treatment Plants ◽

Treatment Plant ◽

Plant Performance ◽

Municipal Wastewater Treatment ◽

Artificial Neural

Proper operation of municipal wastewater treatment plants is important in producing an effluent which meets quality requirements of regulatory agencies and in minimizing detrimental effects on the environment. This paper examined plant dynamics and modeling techniques with emphasis placed on the digital computing technology of Artificial Neural Networks (ANN). A backpropagation model was developed to model the municipal wastewater treatment plant at Ardiya, Kuwait City, Kuwait. Results obtained prove that Neural Networks present a versatile tool in modeling full-scale operational wastewater treatment plants and provide an alternative methodology for predicting the performance of treatment plants. The overall suspended solids (TSS) and organic pollutants (BOD) removal efficiencies achieved at Ardiya plant over a period of 16 months were 94.6 and 97.3 percent, respectively. Plant performance was adequately predicted using the backpropagation ANN model. The correlation coefficients between the predicted and actual effluent data using the best model was 0.72 for TSS compared to 0.74 for BOD. The best ANN structure does not necessarily mean the most number of hidden layers.

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Predicting culturable enterococci exceedances at Escambron Beach, San Juan, Puerto Rico using satellite remote sensing and artificial neural networks

Journal of Water and Health ◽

10.2166/wh.2018.128 ◽

2018 ◽

Vol 17 (1) ◽

pp. 137-148

Author(s):

Abdiel E. Laureano-Rosario ◽

Andrew P. Duncan ◽

Erin M. Symonds ◽

Dragan A. Savic ◽

Frank E. Muller-Karger

Keyword(s):

Neural Networks ◽

Water Quality ◽

Puerto Rico ◽

Artificial Neural Networks ◽

Dew Point ◽

San Juan ◽

Recreational Water ◽

Recreational Water Quality ◽

Artificial Neural ◽

The U.S

Abstract Predicting recreational water quality is key to protecting public health from exposure to wastewater-associated pathogens. It is not feasible to monitor recreational waters for all pathogens; therefore, monitoring programs use fecal indicator bacteria (FIB), such as enterococci, to identify wastewater pollution. Artificial neural networks (ANNs) were used to predict when culturable enterococci concentrations exceeded the U.S. Environmental Protection Agency (U.S. EPA) Recreational Water Quality Criteria (RWQC) at Escambron Beach, San Juan, Puerto Rico. Ten years of culturable enterococci data were analyzed together with satellite-derived sea surface temperature (SST), direct normal irradiance (DNI), turbidity, and dew point, along with local observations of precipitation and mean sea level (MSL). The factors identified as the most relevant for enterococci exceedance predictions based on the U.S. EPA RWQC were DNI, turbidity, cumulative 48 h precipitation, MSL, and SST; they predicted culturable enterococci exceedances with an accuracy of 75% and power greater than 60% based on the Receiving Operating Characteristic curve and F-Measure metrics. Results show the applicability of satellite-derived data and ANNs to predict recreational water quality at Escambron Beach. Future work should incorporate local sanitary survey data to predict risky recreational water conditions and protect human health.

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