Abstract
Presently, the wastewater treatment practices can be significantly improved through the introduction of new microbial treatment technologies. To meet increasingly stringent discharge standards, new applications and control strategies for the sustainable removal of ammonium from wastewater have to be implemented. Partial nitrification to nitrite was reported to be technically feasible and economically favorable, especially when wastewater with high ammonium concentrations or low C/N ratios is treated. For successful implementation of the technology, the critical point is how to maintain partial nitrification of ammonium to nitrite. Partial nitrification can be obtained by selectively inhibiting nitrite oxidizing bacteria through appropriate regulation of the system's DO concentration, microbial SRT, pH, temperature, substrate concentration and load, operational and aeration pattern, and inhibitor. The review addressed the microbiology, its consequences for their application, the current status regarding application, and the future developments. (orig.)
Yongzhen, Peng;
[1]
Beijing Univ. of Tech. (China). Key Lab. of Beijing Water Quality Science and Water Environment Recovery Engineering];
Guibing, Zhu;
[1]
China Academy of Science, Beijing (China). Research Center for Eco-Environmental Science]
- Harbin Inst. of Tech. (China). School of Municipal and Environmental Engineering
Citation Formats
Yongzhen, Peng, Beijing Univ. of Tech. (China). Key Lab. of Beijing Water Quality Science and Water Environment Recovery Engineering], Guibing, Zhu, and China Academy of Science, Beijing (China). Research Center for Eco-Environmental Science].
Biological nitrogen removal with nitrification and denitrification via nitrite pathway.
Germany: N. p.,
2006.
Web.
doi:10.1007/S00253-006-0534-Z.
Yongzhen, Peng, Beijing Univ. of Tech. (China). Key Lab. of Beijing Water Quality Science and Water Environment Recovery Engineering], Guibing, Zhu, & China Academy of Science, Beijing (China). Research Center for Eco-Environmental Science].
Biological nitrogen removal with nitrification and denitrification via nitrite pathway.
Germany.
https://doi.org/10.1007/S00253-006-0534-Z
Yongzhen, Peng, Beijing Univ. of Tech. (China). Key Lab. of Beijing Water Quality Science and Water Environment Recovery Engineering], Guibing, Zhu, and China Academy of Science, Beijing (China). Research Center for Eco-Environmental Science].
2006.
"Biological nitrogen removal with nitrification and denitrification via nitrite pathway."
Germany.
https://doi.org/10.1007/S00253-006-0534-Z.
@misc{etde_20813038,
title = {Biological nitrogen removal with nitrification and denitrification via nitrite pathway}
author = {Yongzhen, Peng, Beijing Univ. of Tech. (China). Key Lab. of Beijing Water Quality Science and Water Environment Recovery Engineering], Guibing, Zhu, and China Academy of Science, Beijing (China). Research Center for Eco-Environmental Science]}
abstractNote = {Presently, the wastewater treatment practices can be significantly improved through the introduction of new microbial treatment technologies. To meet increasingly stringent discharge standards, new applications and control strategies for the sustainable removal of ammonium from wastewater have to be implemented. Partial nitrification to nitrite was reported to be technically feasible and economically favorable, especially when wastewater with high ammonium concentrations or low C/N ratios is treated. For successful implementation of the technology, the critical point is how to maintain partial nitrification of ammonium to nitrite. Partial nitrification can be obtained by selectively inhibiting nitrite oxidizing bacteria through appropriate regulation of the system's DO concentration, microbial SRT, pH, temperature, substrate concentration and load, operational and aeration pattern, and inhibitor. The review addressed the microbiology, its consequences for their application, the current status regarding application, and the future developments. (orig.)}
doi = {10.1007/S00253-006-0534-Z}
journal = []
issue = {1}
volume = {73}
place = {Germany}
year = {2006}
month = {Nov}
}
title = {Biological nitrogen removal with nitrification and denitrification via nitrite pathway}
author = {Yongzhen, Peng, Beijing Univ. of Tech. (China). Key Lab. of Beijing Water Quality Science and Water Environment Recovery Engineering], Guibing, Zhu, and China Academy of Science, Beijing (China). Research Center for Eco-Environmental Science]}
abstractNote = {Presently, the wastewater treatment practices can be significantly improved through the introduction of new microbial treatment technologies. To meet increasingly stringent discharge standards, new applications and control strategies for the sustainable removal of ammonium from wastewater have to be implemented. Partial nitrification to nitrite was reported to be technically feasible and economically favorable, especially when wastewater with high ammonium concentrations or low C/N ratios is treated. For successful implementation of the technology, the critical point is how to maintain partial nitrification of ammonium to nitrite. Partial nitrification can be obtained by selectively inhibiting nitrite oxidizing bacteria through appropriate regulation of the system's DO concentration, microbial SRT, pH, temperature, substrate concentration and load, operational and aeration pattern, and inhibitor. The review addressed the microbiology, its consequences for their application, the current status regarding application, and the future developments. (orig.)}
doi = {10.1007/S00253-006-0534-Z}
journal = []
issue = {1}
volume = {73}
place = {Germany}
year = {2006}
month = {Nov}
}