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Machine learning–based prediction of chlorophenol removal from wastewater using reverse osmosis
 
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1
Technical Institute of Baquba, Middle Technical University, Diyala, Iraq
 
2
Tikrit University, Tikrit, Iraq
 
 
Corresponding author
Emad Majeed Hameed   

Technical Institute of Baquba, Middle Technical University, Diyala, Iraq
 
 
 
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ABSTRACT
One of the most popular methods for reducing the presence of extremely toxic compounds in wastewater is the reverse osmosis (RO) process. The purpose of this research is to examine the prosperity of different machine learning (ML) techniques based optimisation for the removal of chlorophenol from wastewater using a single module of RO process. The main intention is to predict the optimal operating conditions that would introduce a maximum chlorophenol rejection using different ML techniques (the Linear Regression, Ridge, Lasso, Decision Tree, Random Forest, Gradient Boosting, SVR, XGBoost, and Neural Networks) based on available experimental data. The performance of the developed models is evaluated using Root Mean Square Error (RMSE), Mean Absolute Error (MAE), Coefficient of Determination (R²), and cross-validation. The results demonstrate that the Gradient Boosting algorithm can achieve the best performance to predict chlorophenol removal, followed by the XGBoost algorithm. However, Neural networks achieve the worst performance. The results show that feed concentration and pressure are the essential operating conditions that can dominate the rejection rate of chlorophenol. More importantly, it is concluded that feed pressure of 12.76 atm, feed concentration of 5079.05 kmol/m³, wastewater temperature of 31.11 °C, and feed flowrate of 2.36x10-4 m³/s are the optimal conditions to attain the maximum chlorophenol rejection of 82.37%.
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