High-Rate Algae Pond Coupled with Polyester
Fiber Strips for Organics and Nutrient Removal
in a Cold Climate

Ding, Y.F.; Wang, Yuhui; Liu, Xingpo; Song, Xinshan; Feng, Daolun

doi:10.15244/pjoes/97356

Cited by 1 publication

(1 citation statement)

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“…NH 4 -N removal mechanisms in hybrid system mainly included algae assimilation, macrophyte uptake, substrate adsorption, and aerobic nitrification [18][19][20]. reduction was affected by NO 3 -N accumulation due to the aerobic conditions unfavorable for the occurrence of denitrification.…”

Section: Resultsmentioning

confidence: 99%

Enhanced Nitrogen Removal of Eutrophic Water in Constructed Wetland by Novel Integration of Submerged Macrophyte Pond

Ding¹,

Lin²,

Liu³

et al. 2022

Pol. J. Environ. Stud.

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Nitrogen pollution exacerbated water eutrophication and thus caused the rapid growth of algae. Constructed wetland (CW) could be blocked by excessive algae when removing nitrogen from eutrophic water. Submerged macrophytes were proved to be effective in decreasing algae survival and purifying nitrogen compounds. Therefore, submerged macrophyte pond (SMP) was integrated with CW to enhance nitrogen removal through intensifying nitrification and denitrification simultaneously.In hybrid system, algae-macrophyte photosynthesis in SMP improved oxygen environment of subsequent CW, thus facilitating nitrification process of CW. Residual algae debris from SMP effluents could be utilized as biodegradable carbon sources for subsequent CW, thus promoting denitrification process of CW. Nitrogen removal performance in hybrid system was significantly higher than that in single SMP and CW reactor due to carbon and oxygen enhancement, and the highest NH 4 -N and TN removals reached 62.1±2.0% and 60.4±2.0%. The layer effect on nitrogen removal had been identified in CW unit, and optimal reductions of NH 4 -N and TN were obtained in the upper and bottom layer respectively. The study suggested that the hybrid system could be a cost-effective solution for reducing nitrogen and algae loads of eutrophic water.

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Section: Resultsmentioning

confidence: 99%