Optimal clarification of emulsified oily wastewater using a surfactant/chitosan biopolymer

PÉREZ-CALDERÓN, JOHN; SANTOS, MARÍA V.; ZARITZKY, NOEMÍ

Journal of Environmental Chemical Engineering

Elsevier Ltd

Lugar: Amsterdam; Año: 2018 vol. 6 p. 3808 - 3818

The presence of emulsified oils in wastewater from the petroleum and petrochemical industry causes a significant environmental concern. The effect of chitosan (CH) and sodium dodecyl sulfate (SDS) doses on the destabilization of emulsified wastewater was analyzed based on key parameters such as: residual turbidity (% RT), relative length of the clarified zone (CL), chemical oxygen demand (% COD) and zeta potential (ZP). A response surface methodology and central composite design were applied for optimizating the influence of CH and SDS doses, on the performance of the demulsification process. A desirability test allowed to calculate the optimal doses of CH and SDS to produce: i) minimum values of%RT and ZP and ii) maximum values of CL and % COD removal. A novel kinetic model based on first order equations for both stages: coagulation/flocculation and settling of the flocs was proposed to describe clarification using measurements of static dispersion of light and back scattering profiles (BS). The proposed model is a useful tool for predicting clarification times and to analyze the governing mechanisms of the process. Coagulation/flocculation occurs in less than 3 h reaching very low turbidity values in the clarified zone (