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Volume 39 Issue 9
Jan.  2022
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Article Contents
YAN Rong, LEI Xin, MU Yu-jie, KONG Zhi-yuan, ZHANG Yuan-can, FU Zhi-min. CONTROL STRATEGY OF SUBSEQUENT CARBON SOURCE IN ANAMMOX-MFC SYSTEM FOR ENHANCEMENT NITROGEN REMOVAL AND POWER GENERATION[J]. ENVIRONMENTAL ENGINEERING , 2021, 39(9): 76-83. doi: 10.13205/j.hjgc.202109012
Citation: YAN Rong, LEI Xin, MU Yu-jie, KONG Zhi-yuan, ZHANG Yuan-can, FU Zhi-min. CONTROL STRATEGY OF SUBSEQUENT CARBON SOURCE IN ANAMMOX-MFC SYSTEM FOR ENHANCEMENT NITROGEN REMOVAL AND POWER GENERATION[J]. ENVIRONMENTAL ENGINEERING , 2021, 39(9): 76-83. doi: 10.13205/j.hjgc.202109012

CONTROL STRATEGY OF SUBSEQUENT CARBON SOURCE IN ANAMMOX-MFC SYSTEM FOR ENHANCEMENT NITROGEN REMOVAL AND POWER GENERATION

doi: 10.13205/j.hjgc.202109012
  • Received Date: 2020-07-28
    Available Online: 2022-01-21
  • This article mainly investigated the stability of anammox microbial fuel cell (ANAMMOX-MFC) high-efficiency denitrification and electricity generation operation with the addition of subsequent carbon sources, and used high-throughput sequencing and KEGG functional enzymes to predict changes in microbial community structure and functional genes characterization. The results showed that the system could run continuously and get stably for 60 days, the total nitrogen removal rate was 96% above, and the maximum output voltage of continuous operation was about 800 mV. Adding a proper concentration of sodium acetate could increase the relative abundance of the fermenting bacteria Enterococcus, denitrifying electricity-producing bacteria Pseudomonas, and Thaurea in the sludge, thereby effectively promoting electricity production. However, excessive hydrolysis and acidification will inhibit AnAOB activity. From the 68th to the 104th day, the ammonia nitrogen concentration in the effluent increased, and the total nitrogen removal rate dropped to about 90%. The total nitrogen removal rate was restored to 95% above by stopping the sodium acetate. The NH4+-N concentration in the effluent of the ANAMMOX-MFC system could be used as a "regulation signal" for the subsequent stop of the carbon source, so that the denitrification and electricity generation system could run stably and efficiently. It provides a combination of anaerobic ammonia oxidation and microbial fuel cell denitrification and electricity generation technology and has a good theoretical basis and certain engineering significance.
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