好氧反硝化菌BN5脱氮降苯特性

赵晓蕾; 王国英; 李媛

doi:10.12030/j.cjee.201807123

环境工程学报

好氧反硝化菌BN5脱氮降苯特性

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赵晓蕾, 王国英, 李媛. 好氧反硝化菌BN5脱氮降苯特性[J]. 环境工程学报, 2019, 13(4): 850-855. doi: 10.12030/j.cjee.201807123

引用本文:

赵晓蕾, 王国英, 李媛. 好氧反硝化菌BN5脱氮降苯特性[J]. 环境工程学报, 2019, 13(4): 850-855. doi: 10.12030/j.cjee.201807123

ZHAO Xiaolei, WANG Guoying, LI Yuan. Characteristics of simultaneous removal of nitrate and benzene by an aerobic denitrifying bacterium BN5[J]. Chinese Journal of Environmental Engineering, 2019, 13(4): 850-855. doi: 10.12030/j.cjee.201807123

Citation:

ZHAO Xiaolei, WANG Guoying, LI Yuan. Characteristics of simultaneous removal of nitrate and benzene by an aerobic denitrifying bacterium BN5[J]. Chinese Journal of Environmental Engineering, 2019, 13(4): 850-855. doi: 10.12030/j.cjee.201807123

好氧反硝化菌BN5脱氮降苯特性

1.
太原理工大学环境科学与工程学院，太原 030024
基金项目:
国家自然科学基金资助项目51408396

山西省高等学校科技创新项目2016146

山西省回国留学人员科研资助项目2016-034

山西省研究生联合培养基地人才培养项目2018JD18国家自然科学基金资助项目(51408396)

山西省高等学校科技创新项目(2016146)

山西省回国留学人员科研资助项目(2016-034)

山西省研究生联合培养基地人才培养项目(2018JD18)

Characteristics of simultaneous removal of nitrate and benzene by an aerobic denitrifying bacterium BN5

1.
College of Environmental Science and Engineering, Taiyuan University of Technology, Taiyuan 030024, China
Fund Project:

摘要: 以好氧反硝化菌Pseudomonas sp.BN5开展去除硝态氮实验，同时研究其降解苯的特性。结果表明，在最佳转速180 r·min-1条件下，菌株在72 h内可完全降解80 mg·L-1苯；同时，硝态氮的去除率为93.2%。氮平衡分析表明：57.1%的硝态氮转化为胞内氮，32.7%以含氮气体形式被去除；细胞主要通过好氧反硝化和细胞同化作用脱氮。高浓度的苯对细胞生长和硝态氮的去除均有抑制作用，可通过固定化细胞提高降解性能。固定化菌在批式反应器中能高效降苯脱氮，且能够保证反应器的稳定。菌株Pseudomonas sp.BN5可以有效的去除苯和硝酸盐，为该菌的实际应用奠定了基础。
- 苯污染防治 /
- 好氧反硝化菌 /
- 好氧反硝化 /
- 高效降苯脱氮 /
- 固定化细胞
Abstract: The simultaneous removal of nitrate and benzene by an aerobic denitrifying bacterium Pseudomonas sp. BN5 was investigated in this study. The results showed that 80 mg·L-1 benzene could be completely degraded by BN5 within 72 h at the optimal rotation speed of 180 r·min-1, and NO3--N removal rate could reach 93.2% at initial concentration of 10.49 mg·L-1. The nitrogen balance analysis indicated that 57.1% NO3--N transformed to intracellular nitrogen and 32.7% NO3--N was removed as nitrogenous gas. Nitrate removal was mainly realized by aerobic denitrification and cell assimilation. Benzene with high concentration inhibited the cell growth and nitrate removal, and the degradation performance could be improved by cell immobilization. The immobilized bacteria could efficiently degrade benzene and nitrate in a batch reactor, and maintain the stability of this reactor. This study indicated that the strain Pseudomonas sp. BN5 could effectively remove benzene and nitrate, which laid a foundation for its practical application.
- benzene pollution prevention /
- aerobic denitrifying bacteria /
- aerobic denitrification /
- high efficient benzene and nitrogen removal /
- immobilized cell

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好氧反硝化菌BN5脱氮降苯特性

1. 太原理工大学环境科学与工程学院，太原 030024

基金项目:

国家自然科学基金资助项目51408396

山西省高等学校科技创新项目2016146

山西省回国留学人员科研资助项目2016-034

山西省研究生联合培养基地人才培养项目2018JD18国家自然科学基金资助项目(51408396)

山西省高等学校科技创新项目(2016146)

山西省回国留学人员科研资助项目(2016-034)

山西省研究生联合培养基地人才培养项目(2018JD18)

关键词:

摘要: 以好氧反硝化菌Pseudomonas sp.BN5开展去除硝态氮实验，同时研究其降解苯的特性。结果表明，在最佳转速180 r·min-1条件下，菌株在72 h内可完全降解80 mg·L-1苯；同时，硝态氮的去除率为93.2%。氮平衡分析表明：57.1%的硝态氮转化为胞内氮，32.7%以含氮气体形式被去除；细胞主要通过好氧反硝化和细胞同化作用脱氮。高浓度的苯对细胞生长和硝态氮的去除均有抑制作用，可通过固定化细胞提高降解性能。固定化菌在批式反应器中能高效降苯脱氮，且能够保证反应器的稳定。菌株Pseudomonas sp.BN5可以有效的去除苯和硝酸盐，为该菌的实际应用奠定了基础。

English Abstract

Characteristics of simultaneous removal of nitrate and benzene by an aerobic denitrifying bacterium BN5

1. College of Environmental Science and Engineering, Taiyuan University of Technology, Taiyuan 030024, China

Fund Project:

Keywords:

benzene pollution prevention /
aerobic denitrifying bacteria /
aerobic denitrification /
high efficient benzene and nitrogen removal /
immobilized cell

Abstract: The simultaneous removal of nitrate and benzene by an aerobic denitrifying bacterium Pseudomonas sp. BN5 was investigated in this study. The results showed that 80 mg·L-1 benzene could be completely degraded by BN5 within 72 h at the optimal rotation speed of 180 r·min-1, and NO3--N removal rate could reach 93.2% at initial concentration of 10.49 mg·L-1. The nitrogen balance analysis indicated that 57.1% NO3--N transformed to intracellular nitrogen and 32.7% NO3--N was removed as nitrogenous gas. Nitrate removal was mainly realized by aerobic denitrification and cell assimilation. Benzene with high concentration inhibited the cell growth and nitrate removal, and the degradation performance could be improved by cell immobilization. The immobilized bacteria could efficiently degrade benzene and nitrate in a batch reactor, and maintain the stability of this reactor. This study indicated that the strain Pseudomonas sp. BN5 could effectively remove benzene and nitrate, which laid a foundation for its practical application.

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好氧反硝化菌BN5脱氮降苯特性

Characteristics of simultaneous removal of nitrate and benzene by an aerobic denitrifying bacterium BN5

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好氧反硝化菌BN5脱氮降苯特性

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Characteristics of simultaneous removal of nitrate and benzene by an aerobic denitrifying bacterium BN5

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