Journal
WATER ENVIRONMENT RESEARCH
Volume 93, Issue 9, Pages 1669-1679Publisher
WILEY
DOI: 10.1002/wer.1551
Keywords
chromium; electroplating wastewater; emulsion liquid membrane; extractant; prediction model
Funding
- Universiti Teknologi Malaysia (UTM) [Q. J130000.2451.08G02, Q. J130000.2451.08G03]
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Hexavalent chromium from electroplating industries can be reduced to less toxic trivalent form using ELM process. The study focused on continuous removal of chromium from electroplating wastewater, examining the effects of treat ratio, external feed phase, and stripping agent concentration. The simulation model showed good agreement with experimental results, achieving almost 100% extraction of 40 ppm chromium within 3 to 5 minutes.
Hexavalent chromium, emanating primarily from the electroplating industries, can be reduced to the less toxic trivalent variety by several methods, including emulsion liquid membrane (ELM). In this work, studies on the continuous removal of chromium from authentic electroplating wastewater by ELM are reported. The effects of treat ratio, external feed phase, and stripping agent concentration were examined. A mathematical boundary breakage model was used to study the extraction efficiency of chromium through the ELM process. The model representing the prediction of ELM extraction performance for chromium was validated through the comparison between the simulation and experimental results. The result showed the simulation model is found to be in good agreement with the experimental result. Almost 100% of 40 ppm chromium in the external feed phase was extracted within 3 to 5 min using 0.022 M TOMAC as extractant, 1.0 M acidic thiourea in the internal phase, and 1 to 5 of treat ratio. Practitioner Points Hexavalent chromium, emanating primarily from electroplating industries, can be reduced to the less toxic trivalent using ELM process. The developed method was tested for its applicability with predominant species of Cr2O72- in real rinse electroplating wastewater. The extraction efficiency (%) of Cr (VI) was almost 100% for 40 ppm Cr in the external feed phase within 3 to 5 min. The result showed the simulation model is found to be in good agreement with the experimental result.
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