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Abstract
Humic acids (HA) in water can react with active chlorine to produce carcinogenic compounds and their presence is, therefore, considered as a serious problem in water purification plants throughout the world. The present study was undertaken with the aim of investigating the efficiency of using an electrocoagulation (EC) process based on aluminium electrodes at a laboratory scale as a complementary treatment step for HA removal from surface water. A series of experimental assays were performed to determine the optimal operating conditions (electrolysis time, pH, current intensity and initial concentration) involved in the EC mechanism during the HA removal process. The findings revealed that under optimum conditions HA could be removed by up to 72%. Further, high performance liquid chromatography and Fourier transform infrared spectroscopy analyses showed the non-forming products and non-attack points of the HA molecules, respectively. Overall, the results yielded in a pH range (6–7) and low current density (1.78–7.14 mA/cm2) were promising and indicated that the EC method was effective for the achievement of HA removal from surface waters.
Acknowledgments
This work was funded by the Algerian Ministry of Higher Education and Scientific Research (CNEPRU project grant no. JO100420070004). The authors wish to express their gratitude to Dr Djamila Fodil and Dr Fatma Zohra Ferradji for their constructive discussions and valuable help during the preparation of this work. Our thanks are also due to Pr. Anouar Smaoui from the English department at the Sfax Faculty of Science for carefully proofreading and polishing the language of the present paper.