人工充氧人工湿地脱氮途径：曝气方式和进水 COD/N 比的影响。

Pathway governing nitrogen removal in artificially aerated constructed wetlands: Impact of aeration mode and influent chemical oxygen demand to nitrogen ratios.

机构信息

College of Fisheries, Huazhong Agricultural University, Wuhan 430070, China; Freshwater Aquaculture Collaborative Innovation Center of Hubei Province, Wuhan 430070, China.

College of Fisheries, Huazhong Agricultural University, Wuhan 430070, China.

出版信息

Bioresour Technol. 2018 Jun;257:137-146. doi: 10.1016/j.biortech.2018.02.042. Epub 2018 Feb 10.

DOI:10.1016/j.biortech.2018.02.042

PMID:29499495

Abstract

This study aimed at assessing the influence of aeration mode and influent COD/N ratio on nitrogen removal in constructed wetlands (CWs). The results showed that a simultaneous partial nitrification, anammox and denitrification (SNAD) process was established in the intermittent aerated V1. While nitrogen removal pathway gradually changed from partial nitrification-denitrification to complete nitrification-denitrification along with reducing COD/N ratio in the continuous limited aerated V2. Effective inhibition of NOBs under intermittent aeration conditions, good retention of anammox bacteria biomass and much faster depletion of COD prior to substantial NH-N conversion jointly led to the successful achievement of stable SNDA process with elevated influent COD/N ratios in V1. Furthermore, the presence of SNAD ensured a robust ammonium (84-92%) and TN (80-91%) removal efficiency in V1 under varying COD loading rates. In contrast, the TN removal efficiency decreased rapidly along with the reducing influent COD/N ratios in V2.

摘要

本研究旨在评估曝气方式和进水 COD/N 比对人工湿地（CWs）中氮去除的影响。结果表明，间歇曝气的 V1 中建立了同时部分硝化、厌氧氨氧化和反硝化（SNAD）过程。而随着连续限氧的 V2 中进水 COD/N 比的降低，氮去除途径逐渐从部分硝化-反硝化转变为完全硝化-反硝化。间歇曝气条件下对 NOB 的有效抑制、厌氧氨氧化菌生物量的良好保留以及在大量 NH4+-N 转化之前更快地消耗 COD，共同导致在 V1 中成功实现了稳定的 SNDA 工艺，并提高了进水 COD/N 比。此外，在不同 COD 负荷率下，V1 中的 SNAD 确保了稳定的氨氮（84-92%）和 TN（80-91%）去除效率。相比之下，随着 V2 中进水 COD/N 比的降低，TN 去除效率迅速下降。

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人工充氧人工湿地脱氮途径：曝气方式和进水 COD/N 比的影响。

Pathway governing nitrogen removal in artificially aerated constructed wetlands: Impact of aeration mode and influent chemical oxygen demand to nitrogen ratios.

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