Nitrogen removal capacity in horizon subsurface flow and vertical flow constructed wetland in relation to operational mode

机译：地平线地下流动和垂直流动的氮气去除能力与操作模式相关的湿地

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Two laboratory scale constructed wetlands were designed as horizon subsurface flow constructed wetland (HFCW) and vertical flow constructed wetland (VFCW) and were utilized to study the treatment capacity to reduce nitrogen. According to different inflow concentration and height of water surface, HFCW was analyzed in two operational modes and VFCW in four operational modes. The semi-submerged VFCW had the best capacity to remove nitrogen and the total nitrogen removal rate reached to 92% and the removal rate of HFCW was 90%. Moreover, the un-submerged VFCW could reduce 93% ammonia but nitrate removal rate just was 9%. And the removal rates of NH_4~+-N, NHO_3~- N and TN respectively were 85%, 80% and 81% in submerged VFCW.

机译：构造湿地的两个实验室规模被设计为地平线地下流动构造的湿地（HFCW）和垂直流动构造的湿地（VFCW），并利用来研究治疗能力以减少氮气。根据不同的流入浓度和水表面的高度，以两种操作模式分析了两种操作模式和VFCW的HFCW。半浸没的VFCW具有最佳的去除氮气能力，达到达到92％的总氮去除率和HFCW的去除率为90％。此外，未淹没的VFCW可以降低93％的氨，但硝酸盐去除率刚为9％。浸没的VFCW分别的NH_4〜+ -N，NHO_3〜N和TN的去除率分别为85％，80％和81％。

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《International Conference on Technology of Architecture and Structure》|2012年||共4页
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作者
Tian Xie; Zonglian She; En Shi; Leilei Li; Yingjie Zhu;
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中图分类 TB3-532;
关键词
Horizontal subsurface flow constructed wetland; Vertical flow constructed wetland; Nitrogen removal; Operational mode;

机译：水平地下流动构造湿地;垂直流动构建湿地;氮气去除;运行模式;

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机译：季节，氮负荷率和操作年龄对大型水平水平地下流人工湿地氮去除率的影响：三年研究
2. Modeling of Pollutants Removal in Subsurface Vertical Flow and Horizontal Flow Constructed Wetlands [J] . Wojciech D?browski, Beata Karolinczak, Pawe? Malinowski, Water . 2019,第1期

机译：地下垂直流和水平流人工湿地中污染物去除的建模
3. Nitrogen removal in a combined vertical and horizontal subsurface-flow constructed wetland system [J] . B. Tungsiper Desalination: The International Journal on the Science and Technology of Desalting and Water Purification . 2009,第1a3期

机译：垂直和水平地下流人工湿地系统中的氮去除
4. Nitrogen removal capacity in horizon subsurface flow and vertical flow constructed wetland in relation to operational mode [C] . Tian Xie, Zonglian She, En Shi, International Conference on Technology of Architecture and Structure . 2012

机译：地平线地下流动和垂直流动的氮气去除能力与操作模式相关的湿地
5. The removal of pharmaceuticals ibuprofen and naproxen from natural wastewater by subsurface vertical flow constructed wetlands. [D] . Kucerak, Lacey N. 2014

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6. Treatment of municipal wastewater by vertical subsurface flow constructed wetland: Data collection on removal efficiency using Phragmites Australis and Cyperus Papyrus [O] . Fernando García-Ávila 2020

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7. Nitrogen Removal in a Horizontal Subsurface Flow Constructed Wetland Estimated Using the First-Order Kinetic Model [O] . Lijuan Cui, Wei Li, Yaqiong Zhang, 2016

机译：利用一级动力学模型估算水平地下流人工湿地的脱氮效果

Nitrogen removal capacity in horizon subsurface flow and vertical flow constructed wetland in relation to operational mode

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