Litcius/Paper detail

4-chlorophenol removal by air lift packed bed bioreactor and its modeling by kinetics and numerical model (artificial neural network)

Elahe Azizi, Fariba Abbasi, Mohammad Ali Baghapour, Mohammad Reza Shirdareh, Mohammad Reza Shooshtarian

2021Scientific Reports24 citationsDOIOpen Access PDF

Abstract

Abstract 4-chlorophenol (4-CP) is a hazardous contaminant that is hardly removed by some technologies. This study investigated the biodegradation, and physical 4-CP removal by a mixed microbial consortium in the Airlift packed bed bioreactor (ALPBB) and modeling by an artificial neural network (ANN) for first the time. The removal efficiency of ALPBB was investigated at 4-CP(1-1000 mg/L) and hydraulic retention time (HRT)(6-96 hr) by HPLC. The results showed that removal efficiency decreased from 85 at 1 to 0.03% at 1000 mg/L, with increasing 4-CP concentration and HRT decreasing. BOD 5 /COD increased with increasing exposure time and concentration decreasing, from 0.05 at 1000 to 0.96 at 1 mg/L. With time increasing, the correlation between COD and 4-CP removal increased (R 2 = 0.5, HRT = 96 h). There was a positive correlation between the removal of 4-CP and SCOD by curve fitting was R 2 = 0.93 and 0.96, respectively. Moreover, the kinetics of 4-CP removal follows the first-order and pseudo-first-order equation at 1 mg/L and other concentrations, respectively. 4-CP removal modeling has shown that the 2:3:1 and 2:4:1 were the best structures (MSE: physical = 0.126 and biological = 0.9)(R 2 all physical = 0.999 and R 2 test physical = 0.999) and (R 2 all biological = 0.71, and R 2 test biological = 0.997) for 4-CP removal. Also, the output obtained by the ANN prediction of 4-CP was correlated to the actual data (R 2 physical = 0.9997 and R 2 biological = 0.59). Based on the results, ALPBB with up-flow submerged aeration is a suitable option for the lower concentration of 4-CP, but it had less efficiency at high concentrations. So, physical removal of 4-CP was predominant in biological treatment. Therefore, the modification of this reactor for 4-CP removal is suggested at high concentrations.

Topics & Concepts

BioreactorAirliftKineticsChemistryBiodegradationChromatographyCorrelation coefficientHydraulic retention timeEnvironmental engineeringNuclear chemistryEnvironmental scienceMathematicsWastewaterPhysicsStatisticsQuantum mechanicsOrganic chemistryMembrane Separation TechnologiesMicrobial bioremediation and biosurfactantsWastewater Treatment and Nitrogen Removal