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Ehsan Salehi

Ehsan Salehi

Academic rank: Professor
ORCID: https://orcid.org/0000-0003-4409-1242
Education: PhD.
ScopusId: 25643697300
HIndex:
Faculty: Engineering
Address: Arak University
Phone: 086-32625020

Research

Title
Adsorptive removal of acetaldehyde from water using strong anionic resins pretreated with bisulfite: An efficient method for spent process water recycling in petrochemical industry
Type
JournalPaper
Keywords
Acetaldehyde Spent process water recovery Adsorption Fixed-bed column Anion Exchange Resin
Year
2019
Journal Journal of Water Process Engineering
DOI
Researchers Ehsan Salehi ، mohammad shafieei

Abstract

Dynamic adsorption of acetaldehyde from water on strong anionic resin of AMBERLITE IRA 402-OH, modified with bisulfite treatment, was investigated. Effects of three fundamental parameters including initial feed concentration, feed flowrate and active length of the bed on the adsorption were studied with the help of the breakthrough curve analysis. Morphology and functionality of the resin surface in different steps of the process were investigated using scanning electron microscopy and Furrier transform infrared spectroscopy, respectively. SEM analysis disclosed morphological changes in the resin surface as a result of the aldehyde adsorption. Some differences in the characteristic patterns of CeH bonds as a result of aldehyde adsorption were also approved by the FTIR analysis. Aldehyde removal and bed adsorption capacity were calculated at different operating conditions. The experimental breakthrough data was satisfactorily correlated with the Thomas model. The maximum bed adsorption capacity was obtained as 11.14 (mg/g), in good agreement with the experimentallymeasured bed capacity, 12.61(mg/g). Regeneration experiments demonstrated negligible capacity loss (less than 4%) of the resin bed after six successive adsorption/regeneration cycles. Results indicated that AMBERLITE IRA 402-OH with the maximum acetaldehyde removal of 86% is a potential adsorbent for the recovery of low aldehyde-contaminated spent process water.