|
|
|
| Application of microbial immobilization technology in water treatment |
| Zhang Xiang |
| Shenmei Technology Corporation Ltd., Beijing 101300, China |
|
|
|
|
Abstract Immobilized microorganism technology is a new bioengineering technology. It has the advantages of high biological loading rate, stable operation, high treatment efficiency, less sludge production, easy solid-liquid separation and so on comparing with traditional biotechnology. It solved the development defects of traditional biotechnology and has a broad prospect in wastewater application. In order to promote the application of immobilized microorganism technology in practical engineering, the characteristics, fixation methods, carrier selection of Immobilized microorganism technology and its application in water treatment were introduced. The advantages and disadvantages of different fixation methods, focusing on the analysis of dyeing wastewater, pharmaceutical wastewater, aquaculture wastewater, domestic sewage and other water quality treatment were analyzed.
|
|
|
|
|
|
| [ 1 ] 王 云. 微生物固定化技术处理高浓度氨氮废水的研究[ D ]. 南京理工大学,2008.
[ 2 ] 齐 栋. 固定化微生物富集重金属镉的研究[ D ]. 山西大学,2010.
[ 3 ] 尹 莉,乔丽丽,乔瑞平,等. 固定化微生物强化生物处理过程的研究进展[ J ]. 环保科技,2016,22( 5 ):55 - 58,64.
[ 4 ] 唐甜甜. 固载血红蛋白联合电化学技术催化降解双酚A及毒死蜱的研究[ D ]. 山东农业大学,2011.
[ 5 ] Uttariya Roy, Shubhalakshmi Sengupta, Priya Banerjee etc. Asse-
ssment on the decolourization of textile dye (Reactive Yellow) using Pseudomonas sp. immobilized on fly ash: Response surface methodology optimization and toxicity evaluation[ J ]. Journal of Environmental Management, 2018( 223 ): 235 - 248.
[ 6 ] Gholami-borujeni, Fathollah & Mahvi, Amir & Naseri etc. Appli-
cation of immobilized horseradish peroxidase for removal and detoxification of azo dye from aqueous solution[ J ]. Research Journal of Chemistry and Environment. 2018( 15 ): 217 - 222.
[ 7 ] 谢丹丹,刘月英,吴成林,等. 固定化啤酒酵母废菌体吸附Pd~(2+)的研究[ J ]. 微生物学报,2003( 6 ):29 - 34.
[ 8 ] Rajender Kumar, Divya Bhatia, Rajesh Singh etc. Sorption of hea-
vy metals from electroplating effluent using immobilized biomass Trichoderma viride in a continuous packed-bed column[ J ]. International Biodeterioration & Biodegradation, 2011, 65( 8 ): 210 - 231.
[ 9 ] D. Jeong, K.-Y. Choi. Biodegradation of Tetracycline Antibiotic by Laccase Biocatalyst Immobilized on Chitosan-Tripolyphosphate Beads[ J ]. Applied Biochemistry and Microbiology, 2020, 56( 3 ): 111 - 130.
[ 10 ] 杨意东,赵丽君. 高浓度有机废水固定化生物处理技术的研究[ J ]. 给水排水,2000( 1 ):43 - 48.
[ 11 ] Guo Junyuan,Chen Cheng,Chen Wenjing etc. Effective immobili-
zation of Bacillus subtilis in chitosan-sodium alginate composite carrier for ammonia removal from anaerobically digested swine wastewater[ J ]. Chemosphere, 2021( 284 ): 251 - 280.
[ 12 ] 崔 兵,张 玮,郦朝晖. 微生物固定化技术处理高氨氮养殖废水的应用[ J ]. 能源环境保护,2011,25( 1 ):31 - 33.
[ 13 ] Daudzai, Zubaida & Dolphen, Rujira & Thiravetyan etc. Porous f-
loaing Meretrix lusoria shell composite pellets immobilized with nitrate-reducing bacteria for treatment of phosphate and nitrate simultaneously from domestic wastewater. Chemical Engineering Journal, 2021( 429 ): 463 - 480.
[ 14 ] Shengbing He, Gang Xue. Algal-based immobilization process to treat the effluent from a secondary wastewater treatment plant (WWTP)[ J ]. Journal of Hazardous Materials, 2010, 178( 1 ): 159 - 170. |
|
|
|
