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« Previous AbstractA new combined green method for 2-Chlorophenol removal using cross-linked Brassica rapa peroxidase in silicone oil    Next AbstractDyeing Properties of Cotton with Reactive Dye in Nonane Nonaqueous Reverse Micelle System »

Environ Technol


Title:A combination of absorption and enzymatic biodegradation: phenol elimination from aqueous and organic phase
Author(s):Tandjaoui N; Abouseoud M; Couvert A; Amrane A; Tassist A;
Address:"a Laboratoire de Biomateriaux et Phenomenes de Transport, Faculte des Sciences et de la Technologie , Universite Yahia Fares de Medea, Pole Universitaire, RN1 , Medea , Algeria. b Ecole Nationale Superieure de Chimie de Rennes , CNRS , UMR 6226, Avenue du General Leclerc, Rennes Cedex , France. c Laboratoire de Genie de la Reaction, Faculte de Genie Mecanique et Genie des Procedes , Universite Houari Boumediene , Bab Ezzouar , Algeria. d Universite europeenne de Bretagne , Rennes , France"
Journal Title:Environ Technol
Year:2019
Volume:20171114
Issue:5
Page Number:625 - 632
DOI: 10.1080/09593330.2017.1400110
ISSN/ISBN:1479-487X (Electronic) 0959-3330 (Linking)
Abstract:"Peroxidase from Brassica rapa was immobilized as cross-linked enzyme aggregates (CLEAs) and used to treat air containing phenol as a model molecule of volatile organic compounds (VOCs). Prior to an enzymatic treatment, phenol was absorbed into an aqueous or organic phase (silicone oil) to reach concentrations ranging from 20 to 160 mg/L. The process was carried out by introducing a desired weighing of BRP-CLEAs into preparations and reaction was started by injecting H(2)O(2) solution to the medium. Optimization of the reaction conditions in the organic solvent revealed an optimal contact time of 60 min, 60 mg/L of phenol concentration and 3 mM H(2)O(2), leading to a maximum removal yield of 70% for 3.4 UI/mL of BRP-CLEAs. These results were compared to those obtained in an aqueous medium that showed 90% of degradation yield after 40 min in the following conditions, 90 mg/L of initial phenol amount, 2 mM of H(2)O(2) and 2.5 UI/mL of BRP-CLEAs. Parameters of the Michaelis-Menten model, Km and Vmax, were also determined for the reaction in both phases. Phenol removal by BRP-CLEAs in silicone oil succeeded with 70% of conversion yield. It is promising regarding the transposition of such enzymatic process to hydrophobic VOCs"
Keywords:"Biodegradation, Environmental Hydrogen Peroxide *Phenol Phenols *Volatile Organic Compounds BRP-CLEAs absorption aqueous medium biodegradation silicone oil;"
Notes:"MedlineTandjaoui, Nassima Abouseoud, Mahmoud Couvert, Annabelle Amrane, Abdeltif Tassist, Amina eng England 2017/11/04 Environ Technol. 2019 Feb; 40(5):625-632. doi: 10.1080/09593330.2017.1400110. Epub 2017 Nov 14"

 
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