Enzymatic destabilization of chemical surfactant in wastewater—a potent ultrafiltration foulant: kinetic studies

Chemical surfactants find a wide range of applications in leather manufacturing practice and they are present in the wastewater at a concentration of 10–200 mg/L. The wastewater after primary, secondary biological, and tertiary treatments contains chemical surfactants at a considerable concentration...

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Bibliographic Details
Published in:Desalination and water treatment 2016-07, Vol.57 (32), p.14833-14848
Main Authors: Sailatha, Theagaraj, Saranya, Paranji, Swarnalatha, Somasundaram, Velan, Manickam, Sekaran, Ganesan
Format: Article
Language:English
Subjects:
Amino acids
Destabilization
Fatliquors
Fourier transforms
Infrared spectroscopy
Kinetics
Lipase
Lysinibacillus sp
Spectrum analysis
Surface tension
Surfactants
Tannery wastewater
Textile industry wastewaters
Ultrafiltration
Vegetable fatliquor
Vegetables
Waste water
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Summary:Chemical surfactants find a wide range of applications in leather manufacturing practice and they are present in the wastewater at a concentration of 10–200 mg/L. The wastewater after primary, secondary biological, and tertiary treatments contains chemical surfactants at a considerable concentration (60 mg/L). In the present investigation, lipolytic micro-organisms that are capable of utilizing wetting agents (vegetable fatliquor) as the substrate were used to produce lipase. The various conditions such as time, pH, temperature, and concentration of vegetable fatliquor were optimized for the production of lipase. The lipase of an activity 345 U/mL with two different molecular weights 62 and 80 kDa was produced from Lysinibacillus sp. The predominant amino acid present in the lipase was found to be glutamic acid. The lipase was characterized using FT-IR, circular dichroism, and XRD spectroscopy. The purified lipase could be used for destabilization of tannery vegetable fatliquor (TVFL) present in the secondary biological-treated tannery wastewater. The optimum conditions for the destabilization of TVFL using lipase was found to be time, 3 h; pH, 7; temperature, 35°C; lipase concentration, 18μl by response surface methodology. The destabilization of TVFL by lipase followed pseudo-second-order kinetic model with the rate constant, 9.20 × 10−5 mg L−1 min−1. The destabilization of TVFL was confirmed using UV–visible, NMR, and FT-IR spectroscopy and surface tension measurement.
ISSN:1944-3986
1944-3994
1944-3986
DOI:10.1080/19443994.2015.1067839