固定化白腐菌混合菌株对氯苯酚废水的酶降解作用

Hongyuan Liu, Xueyi Lou, Yeyao Shao, Zhichao Wang, Jiamin Xiao, Kai Cen, Dingyin Chen, Qiman Xia, Wenlong Xu, Fang Fang, Yasin Orooji, Peng Liu
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引用次数: 0

摘要

为解决氯酚废水污染问题,设计了固定化混合白腐真菌(WRF)菌株微球作为固体降解剂,利用木质素过氧化物酶(LiP)、锰过氧化物酶(MnP)和漆酶(Lac)降解废水。考虑到真菌球体的不同物理和化学性质,对固定化剂配方进行了优化,并通过综合环境因素设计响应面分析来确定给药条件。结果表明,T. versicolor 和 P. sajor-caju 1:1 包囊的 2,4-DCP 处理率和胞外酶活性明显优于单个菌株。以聚乙烯醇(PVA)、海藻酸钠(SA)和生物炭为载体,以磷酸二氢钠溶液为交联剂,以二氧化硅/沸石为添加剂,对混合菌进行固定,得到了一种高质量的固体制剂。在 96 小时内,2,4-二氯丙醇的降解率达到 99.33%,最佳用量、pH 值和 2,4-DCP 初始浓度分别为 11.5 克/升、5.5 毫克/升和 40 毫克/升。WRF 对 2,4-DCP 的降解选择性地去除邻近的氯原子,生成 4-CP,从而提高了除氯效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Enzymatic Degrading Chlorophenol Wastewater by Mixed Strains of Immobilized White Rot Fungi
To address chlorophenol wastewater pollution, immobilized mixed white rot fungi (WRF) strain microsphere was designed as a solid degradation agent, using lignin peroxidase (LiP), manganese peroxidase (MnP), and laccase (Lac) to degradating the wastewater. Considering the diverse physical and chemical properties of the fungal sphere, the immobilization agent formula is optimized and comprehensive environmental factor design response surface analysis are implemented to determine the delivery conditions. Consequently, the 2,4-DCP treatment rate and extracellular enzyme activity for a 1:1 encapsulation of T. versicolor and P. sajor-caju significantly outperform those of individual strains. Using polyvinyl alcohol (PVA), sodium alginate (SA), and biochar as carriers, with sodium dihydrogen phosphate solution as crosslinker and SiO2/zeolite as additives, immobilizing mixed bacteria yielded a high-quality solid agent. This achieved a 99.33% 2,4-DCP degradation rate over 96 hours, with optimal dosage, pH, and initial 2,4-DCP concentration at 11.5 g/L, 5.5, and 40 mg/L. The degradation of 2,4-DCP by WRF selectively removes adjacent chlorine atoms to produce 4-CP, enhancing the dechlorination efficiency.
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