COD Removal from High Salinity Petrochemical Wastewater Using Photo-assisted Peroxi-coagulation

Abstract: Photo-assisted peroxi-coagulation (PPC) was investigated for treatment of high TDS (total dissolved solids) wastewater. The most important characteristics of the studied wastewater were high TDS of around 16428 mg L-1 and BOD 5 /COD ratio of 0.07. Effective operating parameters, including initial pH values of 3-8, reaction time of 60-240 min, electrode distance values of 2-6 cm, and voltage values of 0.5-3 V were investigated in batch mode experiments. Optimum conditions were obtained at pH = 3, voltage = 1.5 … Show more

“…Petrochemical and food processing wastewaters are similar to MC wastewater with high salt and organic content [20,21]. High-salt wastewater is treated in parallel with physical and chemical treatments [20,22,23], at great expense and energy expenditure [7].…”

“…Petrochemical and food processing wastewaters are similar to MC wastewater with high salt and organic content [20,21]. High-salt wastewater is treated in parallel with physical and chemical treatments [20,22,23], at great expense and energy expenditure [7]. Although studies using anaerobic sequencing batch biofilm reactors (AnSBBR) and membrane bioreactors (MBR) require lower cost and energy consumption compared to physicochemical treatments [24,21], extracellular polymeric substances (EPS) released by microorganisms at high salt concentrations exhibit sub-optimal performance of the membrane (biofilm and membrane) [25,26].…”

Removal of biological organics in high-salinity wastewater produced from methylcellulose production and subsequent changes in the microbial community

“…Petrochemical and food processing wastewaters are similar to MC wastewater with high salt and organic content [20,21]. High-salt wastewater is treated in parallel with physical and chemical treatments [20,22,23], at great expense and energy expenditure [7].…”

“…Petrochemical and food processing wastewaters are similar to MC wastewater with high salt and organic content [20,21]. High-salt wastewater is treated in parallel with physical and chemical treatments [20,22,23], at great expense and energy expenditure [7]. Although studies using anaerobic sequencing batch biofilm reactors (AnSBBR) and membrane bioreactors (MBR) require lower cost and energy consumption compared to physicochemical treatments [24,21], extracellular polymeric substances (EPS) released by microorganisms at high salt concentrations exhibit sub-optimal performance of the membrane (biofilm and membrane) [25,26].…”

Removal of biological organics in high-salinity wastewater produced from methylcellulose production and subsequent changes in the microbial community

Treatment of petrochemical wastewater and produced water from oil and gas

Potential of Luffa cylindrica seed as coagulation-flocculation (CF) agent for the treatment of dye wastewater: Kinetic, mass transfer, optimization and CF adsorption studies