Effect of COD/N Ratio on Removal Performances in Two Subsurface Wastewater Infiltration Systems: Fid-Bau Portal

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Effect of COD/N Ratio on Removal Performances in Two Subsurface Wastewater Infiltration Systems

Fei et al.

Fei, Hexin / Pan, Jing / Tong, Deli / Huang, Linli / Yu, Long / Sun, Yafei / Qi, Shiyue / Huang, Yaoyao

Dissolved oxygen (DO), were investigated. Aerobic conditions were effectively developed in 50 cm depth of the matrix and anoxic or anaerobic conditions were not changed in 80 and 110 cm depth by intermittent aeration, which encouraged nitrification. Increased influent COD/N ratio led to lower COD and nitrogen removal in conventional SWISs. Sufficient carbon source in high COD/N ratio influent promoted denitrification with intermittent aeration. High removal rates of COD (95.68 ± 0.21%), TP (92.02 ± 0.28%), ‐N (99.33 ± 0.05%), and ‐ (89.65 ± 0.6%) were obtained with influent COD/N ratio of 12 in aerated SWISs. Under the COD/N ratio of 12 and 18, intermittent aeration boosted the growth and reproduction of nitrifying bacteria and denitrifying bacteria. Meanwhile, nitrate and nitrite reductase activities with intermittent aeration were higher than that without aeration in 80 and 110 cm depths.

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Effect of COD/N Ratio on Removal Performances in Two Subsurface Wastewater Infiltration Systems

Fei et al.

Fei, Hexin / Pan, Jing / Tong, Deli / Huang, Linli / Yu, Long / Sun, Yafei / Qi, Shiyue / Huang, Yaoyao

Dissolved oxygen (DO), were investigated. Aerobic conditions were effectively developed in 50 cm depth of the matrix and anoxic or anaerobic conditions were not changed in 80 and 110 cm depth by intermittent aeration, which encouraged nitrification. Increased influent COD/N ratio led to lower COD and nitrogen removal in conventional SWISs. Sufficient carbon source in high COD/N ratio influent promoted denitrification with intermittent aeration. High removal rates of COD (95.68 ± 0.21%), TP (92.02 ± 0.28%), ‐N (99.33 ± 0.05%), and ‐ (89.65 ± 0.6%) were obtained with influent COD/N ratio of 12 in aerated SWISs. Under the COD/N ratio of 12 and 18, intermittent aeration boosted the growth and reproduction of nitrifying bacteria and denitrifying bacteria. Meanwhile, nitrate and nitrite reductase activities with intermittent aeration were higher than that without aeration in 80 and 110 cm depths.

Effect of COD/N Ratio on Removal Performances in Two Subsurface Wastewater Infiltration Systems

Fei et al.

Fei, Hexin / Pan, Jing / Tong, Deli / Huang, Linli / Yu, Long / Sun, Yafei / Qi, Shiyue / Huang, Yaoyao

Dissolved oxygen (DO), were investigated. Aerobic conditions were effectively developed in 50 cm depth of the matrix and anoxic or anaerobic conditions were not changed in 80 and 110 cm depth by intermittent aeration, which encouraged nitrification. Increased influent COD/N ratio led to lower COD and nitrogen removal in conventional SWISs. Sufficient carbon source in high COD/N ratio influent promoted denitrification with intermittent aeration. High removal rates of COD (95.68 ± 0.21%), TP (92.02 ± 0.28%), ‐N (99.33 ± 0.05%), and ‐ (89.65 ± 0.6%) were obtained with influent COD/N ratio of 12 in aerated SWISs. Under the COD/N ratio of 12 and 18, intermittent aeration boosted the growth and reproduction of nitrifying bacteria and denitrifying bacteria. Meanwhile, nitrate and nitrite reductase activities with intermittent aeration were higher than that without aeration in 80 and 110 cm depths.

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Title:

Effect of COD/N Ratio on Removal Performances in Two Subsurface Wastewater Infiltration Systems

Subtitle:

Fei et al.

Contributors:

Fei, Hexin (author) / Pan, Jing (author) / Tong, Deli (author) / Huang, Linli (author) / Yu, Long (author) / Sun, Yafei (author) / Qi, Shiyue (author) / Huang, Yaoyao (author)

Published in:

Water Environment Research ; 89 ; 694-702

Publication date:

2017-08-01

Size:

9 pages

ISSN:

1554-7531 , 1061-4303

DOI:

https://doi.org/10.2175/106143017X14839994522867

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

dissolved oxygen , pollutants removal , intermittent aeration , subsurface wastewater infiltration system , COD/N ratio

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