Journal
JOURNAL OF CLEANER PRODUCTION
Volume 280, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.jclepro.2020.124427
Keywords
Microwave; Electrocoagulation; Water; Organic matter; Heavy metals
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Organic matter is a common pollutant in freshwater sources and can negatively impact the performance of water treatment plants. Current research has successfully combined electromagnetic radiation and electrocoagulation technologies to purify water contaminated with organic matter-heavy metal complexes.
Organic matter is a widely occurring pollutant in freshwater sources due to the extensive use of synthetic organic compounds in industry and the natural occurrence of organic matter in the Earth's crust. Organic matter causes adverse effects on the performance of water treatment plants, such as accelerated bacterial growth and increased consumption of chemical coagulants. Organic matter also has the ability to chelate some heavy metals forming refractory complexes that resist coagulation. The current research combines electromagnetic radiation (microwave) and electrocoagulation technologies to purify water from OM-heavy metal complexes created using iron and ethylenediaminetetraacetic acid (EDTA). The organic matter-iron solution was introduced to a microwave field to break down the complex, followed by electrolysis of the solution using an aluminum-base EC cell. Microwave power (50.0-300.0 W), temperature (50.0-150.0 degrees C) and irradiation period (5.0-15.0 min) were measured. During the electrolysing stage, initial pH (4.0-8.0), current density (1.0-2.0 mA cm(-2)) and space between electrodes (5.0-20.0 mm), were examined. The results showed that the electromagnetic radiation-electrocoagulation technology removed up to 92% of the organic matter-iron complex in comparison to 69.6% removal using a traditional electrocoagulation method. The best operational conditions were established as follows: 10 min of microwave irradiation at 100 Wat a temperature of 100 degrees C, followed by 20.0 min of electrolysing at an initial pH of 6.0, the space between electrodes 5.0 mm and current density of 1.50 mA cm(-2). (C) 2020 Elsevier Ltd. All rights reserved.
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