Adsorption Potential of Schizophyllum commune White Rot Fungus for Degradation of Reactive Dye and Condition Optimization: A Thermodynamic and Kinetic Study

A. Raees, H. Bhatti, S. Alshehri, Farheen Aslam, F. F. Al-Fawzan, S. A. Alissa, M. Iqbal, A. Nazir
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引用次数: 5

Abstract

The pollution due to dyes from textile sector is one of the major issues faced worldwide. This study was focused on the removal of the reactive dye, Drimaren Turquoise CL-B using Schizophyllum commune, a white rot fungus (WRF) keeping in mind the current environmental conditions. Different parameters like pH, sources of carbon & nitrogen, temperature, concentration of dye and C/N ratio were used to investigate their effect on the process. Maximum dye removal of 95.45% was obtained at pH 4.5, temperature 35°C, inoculum size 3 mL, veratryl alcohol (mediator), glucose (carbon source) and ammonium nitrate (nitrogen source). The enzyme activity was determined by employing enzyme assay. Laccase and Lignin peroxidase (LiP) activity was low while Manganese peroxidase (MnP) activity was highest. Maximum bio-sorption was achieved at pH 1 and 313 K. The pseudo-2nd-order kinetic model & Freundlich isotherm was best suited for the process of removal of dye. From these data, it is concluded that white rot fungus could possibly be the excellent biomaterial for elimination of synthetic dyes from wastewater.
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裂叶菌白腐菌降解活性染料的吸附潜力及条件优化:热力学和动力学研究
纺织行业的染料污染是世界范围内面临的主要问题之一。结合当前环境条件,利用白腐菌裂叶菌(Schizophyllum commune)对活性染料Drimaren Turquoise CL-B进行了脱除研究。考察了pH、碳氮来源、温度、染料浓度、C/N比等参数对工艺的影响。在pH为4.5、温度为35℃、接种量为3 mL、戊曲醇(介质)、葡萄糖(碳源)和硝酸铵(氮源)的条件下,去除率最高可达95.45%。采用酶法测定酶活性。漆酶和木质素过氧化物酶(LiP)活性较低,锰过氧化物酶(MnP)活性最高。在pH为1、313 K的条件下吸附效果最好。拟二阶动力学模型和Freundlich等温线最适合于脱色过程。由此得出结论,白腐菌可能是去除废水中合成染料的优良生物材料。
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