November 24, 2024
Mohsen Abbasi

Mohsen Abbasi

Academic Rank: Associate professor
Address:
Degree: Ph.D in Chemical Engineering
Phone: 07731221495
Faculty: Faculty of Petroleum, Gas and Petrochemical Engineering

Research

Title Application of Photo-Fenton, Electro-Fenton, and Photo-Electro-Fenton processes for the treatment of DMSO and DMAC wastewaters
Type Article
Keywords
DMSO wastewater; DMAC wastewater; Photo-Fenton; Electro-Fenton; Photo-Electro-Fenton processes; Advanced Oxidation Process (AOP)
Journal Arabian Journal of Chemistry
DOI https://doi.org/10.1016/j.arabjc.2022.104229
Researchers Mohammad mehdi Parivazh (Second researcher) , Mohammad Javad Dianat (Fourth researcher) , Mohsen Abbasi (Fifth researcher) , Shahriar Osfouri (Not in first six researchers) , Amir Rostami (Not in first six researchers) , Mika Silanpaa (Not in first six researchers) , Mahdieh Dibaj (Not in first six researchers) , Mohammad Akrami (Not in first six researchers)

Abstract

Biological treatment, due to the formation of hazardous chemicals to remove organic compounds such as dimethyl sulfoxide (DMSO) and N, N-dimethylacetamide (DMAC), has limited potential. Advanced oxidation processes (AOPs) are regarded as a viable alternative for treating molecules containing carbon-hydrogen bonds that cannot be broken down by traditional physico-chemical methods. In this investigation, various AOPs such as Photo-Fenton, Electro- Fenton, and Photo-Electro-Fenton processes were studied to treat wastewaters containing DMSO and DMAC. The effects of the operating parameters, including various initial concentrations of DMSO and DMAC, initial pH, reaction time, different concentrations of Fenton’s reagent, power of UV lamp, different concentrations of electrolytes, the distance between electrodes and current intensity, were investigated. The findings of the experiments revealed that a pH of 3 and a reaction time of 120 min were optimal. At 2000 mg L-1 of DMSO, maximum degradation and the finalconcentration of TOC were 98.64 % and 256.8 mg L-1, respectively, by the Electro-Fenton process under the optimal conditions. The Electro-Fenton process was successful in determining the maximum degradation of DMAC (96.31 %) and the final TOC concentration (10.03 mg L -1) at250 mg L-1 of DMAC under optimal conditions. Finally, it can be concluded that the Electro- Fenton process was the best process for the efficient removal of DMSO and DMAC. The second step of the kinetic model follows a pseudo-first-order reaction for 250 and 500 mg L-1 of pollutants and obeyed a pseudo-second-order kinetic model for concentrations of 1000, 2000 mg L- 1.