B.C.Y. Lee scite author profile

Industrial reverse osmosis concentrate (ROC) treatment with the fluidized bed reactor Fenton (FBR-Fenton) process was modeled with artificial neural network (ANN) and multilinear regression (MLR) techniques. The performance of the models in predicting total organic carbon (TOC) removal and sludge production in ROC treatment was evaluated. The MLR model showed poor prediction accuracy, indicating the linear model is not suitable for describing the FBR-Fenton process. The ANN model achieved an acceptable accuracy for predicting TOC removal (RMSE = 0.0263; R 2 = 0.8680) and sludge production (RMSE = 0.0355; R 2 = 0.8182) under different operation conditions. ANN model sensitivity analysis revealed the Fe 2+ dosage to be a relatively important factor affecting TOC removal (31%) and sludge production (41%) in the FBR-Fenton process. The validated ANN model was implemented for FBR-Fenton process optimization with the aim of achieving a high TOC removal efficiency and minimal sludge production. The optimum operation conditions were determined to be 1.5 mM Fe 2+ , 10 mM H 2 O 2 , 80 min hydraulic retention time, and pH 3−4, and the predicted TOC removal and sludge production were 57% and 0.23 g/ L, respectively. Ten more batch studies and a continuous 2 week study with a larger scale FBR-Fenton system were subsequently carried out under the same optimum operation conditions, to further validate the ANN model's prediction accuracy.

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Organics removal and in-situ granule activated carbon regeneration in FBR-Fenton/GAC process for reverse osmosis concentrate treatment

Cai

et al. 2020

Water Research

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B.C.Y. Lee

Potential of combined advanced oxidation – Biological process for cost-effective organic matters removal in reverse osmosis concentrate produced from industrial wastewater reclamation: Screening of AOP pre-treatment technologies

Fluidized-bed Fenton technologies for recalcitrant industrial wastewater treatment–Recent advances, challenges and perspective

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Application of a Multiobjective Artificial Neural Network (ANN) in Industrial Reverse Osmosis Concentrate Treatment with a Fluidized Bed Fenton Process: Performance Prediction and Process Optimization

Organics removal and in-situ granule activated carbon regeneration in FBR-Fenton/GAC process for reverse osmosis concentrate treatment

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