humic acid removal from aqueous solutions by peroxi-electrocoagulation process

Authors

ahmad reza yazdanbakhsh department of environmental health engineering, shahid beheshti university of medical sciences, tehran, iran

majid kermani department of environmental health engineering, iran university of medical sciences, tehran, iran

sanaz komasi department of environmental engineering, islamic azad university, west tehran branch, tehran, iran

ehsan aghayani department of environmental health engineering, tarbiat modares university of medical sciences, tehran, iran

abstract

background: natural organic matter is the cause of many problems associated with water treatment such as the presence of disinfection by-products (dbps) and membrane fouling during water filtration. in this study, the performance of the peroxi-electrocoagulation process (pep) was investigated for the removal of humic acids (has) from aqueous solutions. methods: pep was carried out for the removal of ha using a plexiglas reactor with a volume of 2 l and fitted with iron electrodes and a direct current supply (dc). samples were taken at various amounts of ph (2-4), current density (1 and 2a/cm2), hydrogen peroxide (50-150 mg/l) and reaction time (5-20 minutes) and then filtered to remove sludge formed during reaction. finally, the ha concentration was measured by uv absorbance at 254 nm (uv254). results: results indicated that increasing the concentration of h2o2 from 50 to 150 mg/l increased ha removal efficiency from 83% to 94.5%. the highest removal efficiency was observed at ph 3.0 by increasing the ph to the alkaline range, the efficiency of the process was reduced. it was found that ha removal efficiency was high in current density 1a/cm2. increasing current density up to 1 a cm-2 caused a decrease in removal efficiency. results of this study showed that under the optimum operating range for the process ([current density] = 1a/cm2, [hydrogen peroxide concentration] = 150 mg/l, [reaction time]= 20 minutes and [ph]= 3.0), ha removal efficiency reached 98%. conclusion: it can be concluded that pep has the potential to be utilized for cost-effective removal of ha from aqueous solutions.

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Journal title:
environmental health engineering and management

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