A comparative optimization and performance analysis of four different electrocoagulation-flotation processes for humic acid removal from aqueous solutions

Hasani, Gona and Maleki, Afshin and Daraei, Hiua and Ghanbari, Reza and Safari, Mahdi and McKay, Gordon and Yetilmezsoy, Kaan and Ilhan, Fatih and Marzban, Nader (2019) A comparative optimization and performance analysis of four different electrocoagulation-flotation processes for humic acid removal from aqueous solutions. PROCESS SAFETY AND ENVIRONMENTAL PROTECTION, 121. pp. 103-117.

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Humic substances (HSs) are a group of complex macromolecular polymeric compounds originating from the decomposition of plant residuals and other organic matter. Within the presence of micro-pollutants and heavy metals, HSs negatively act upon potable water quality by contributing to aesthetic problems such as yellowish or brownish color and annoying taste and odor. They are also responsible for re-growth of pathogenic microorganisms and fouling of membranes in water distribution systems. More importantly, these high-molecular-weight polymers have been noted to be the major contributor to the formation of disinfection by-products (DBPs) such as trihalomethanes (THMs) and haloacetic acids (HAAs). Considering these harmful effects, removal of HSs is one of the significant tasks in drinking water treatment. For this purpose, this study aimed to explore the effects of various operating parameters (initial concentration, initial pH, electrical conductivity, pulse time, pulse number, and process time) on the humic acid (HA) removal efficiency and energy consumption. In this study, a new current supply method called alternating pulse current electrocoagulation-flotation (APC-ECF) process was proposed, and a detailed comparative optimization of four different ECF processes (direct current (DC)-simple electrode, DC-perforated electrode, pulse current-simple electrode, and pulse current-perforated electrode) was conducted within the framework of Taguchi-based experimental design methodology. According to scanning electron microscopy (SEM), the morphology of electrode surfaces with APC and perforated electrode showed less disordered (irregular) pores and a regular structure of aluminum compared to the DC, which confirmed the difference in the corrosion rates. Moreover, the proposed APC-ECF method led to the production of less dewatered and dense sludge. The results of the performance analysis revealed that the APC with a perforated electrode provided 3.2-fold lower energy consumption and 2.5-fold lower aluminum consumption compared to the DC with a simple electrode. Considering the expenses associated with power consumption and sludge disposal costs for the electrocoagulation unit,the experimental findings corroborated that the proposed APC-ECF process could be used as a promising and cost-effective technology in water treatment for the removal of HSs.

Item Type: Article
Subjects: R Medicine > RA Public aspects of medicine
R Medicine > RN Health > RN1002 Enviromental Health
Divisions: University Portal > research center > sdh
Depositing User: pr SDH research
Date Deposited: 21 Aug 2019 04:46
Last Modified: 21 Aug 2019 04:46
URI: http://eprints.qums.ac.ir/id/eprint/8923

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