Differences in the treatment efficiency of a cold-resistant floating bed plant receiving two types of low-pollution wastewater

文献类型: 外文期刊

第一作者: Duan, Jingjing

作者: Duan, Jingjing;Feng, Yanfang;Yu, Yingliang;He, Shiying;Xue, Lihong;Yang, Linzhang;Feng, Yanfang

作者机构:

关键词: Floating bed;Low-pollution wastewater;C/N ratio;Low-temperature season;Nutrient removal

期刊名称:ENVIRONMENTAL MONITORING AND ASSESSMENT ( 影响因子:2.513; 五年影响因子:2.871 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: A floating bed system vegetated with Oenanthe javanica was adopted in this study to treat two types of low-pollution wastewater (LPW): polluted river water (PRW) and treated domestic wastewater (DW). The water was treated for 111 days during the low-temperature season. The results indicated that the total nitrogen (TN) removal rates were higher in the DW groups than in the PRW groups during the initial 30 days. This difference may stem from the different C/N ratio of the influent. As the water temperature rose above 15.5 degrees C after March 12, the purification capability of nitrogen in the DW groups was enhanced, and the removal rates of TN were 89.8 and 76.8 % in DWand the control 2 at 111 days. Conversely, the performance of total phosphorus (TP) removal was robust during the initial stage of the experiment, despite receiving domestic wastewater with a relatively high N/P ratio (16: 1). The TP removal rates in DW were as high as 91.5 % compared to 78.9 % in PRW at 30 days. At the same time, the N/P ratios of plant tissue were higher in the DW groups compared to that in the PRW groups. Plant uptake played a significant role in nutrient removal in the PRW groups (52.5 % for TN, 68.2 % for TP), followed by sedimentation. In contrast, plant uptake only accounted for 25.3 % of TN removal and 24.1 % of TP removal in DW. The results provide engineering parameters for the future design of an ecological remediation technology for LPW purification.

分类号: X8

  • 相关文献

[1]Floating ryegrass mat for the treatment of low-pollution wastewater. Duan, Jingjing,He, Shiying,Feng, Yanfang,Yu, Yingliang,Xue, Lihong,Yang, Linzhang,Duan, Jingjing,He, Shiying,Feng, Yanfang,Yu, Yingliang,Xue, Lihong,Yang, Linzhang.

[2]Study on Compost Conditions and Nitrogen Changes of Poultry Dung with Banana Tree. Zhang, Yubai,Tang, Xuexi,Li, Qinfen. 2013

[3]Effect of Organic Fertilizer on N2O Emission in Yellow Cornfield. Jiang Yuzhou,Wang Peng,Liu Qingli,Zhang Yungui,Li Zhihong,Zou Yan,Zhu Jingwei,Shi Junxiong. 2018

[4]Effects of controlled traffic no-till system on soil chemical properties and crop yield in annual double-cropping area of the North China Plain. Lu, Caiyun,Li, Hongwen,He, Jin,Wang, Qingjie,Sarker, Khokan Kumer,Li, Wenying,Rasaily, Rabi G.,Li, Hui,Lu, Caiyun,Lu, Zhanyuan,Chen, Guangnan.

[5]Available C and N affect the utilization of glycine by soil microorganisms. Yang, Lijie,Zhang, Lili,Wu, Zhijie,Gong, Ping,Xue, Yan,Yu, Chunxiao,Geisseler, Daniel,Horwath, William R.,Juan, Yinghua,Yang, Lijie,Xue, Yan,Yu, Chunxiao.

[6]Bioremediation efficiency in the removal of dissolved inorganic nutrients by the red seaweed, Porphyra yezoensis, cultivated in the open sea. He, Peimin,Xu, Shannan,Zhang, Hanye,Wen, Shanshan,Dai, Yonjing,Zhang, Hanye,Lin, Senjie,Yarish, Charles. 2008

[7]Bioremediation of Wastewater by Iron Oxide-Biochar Nanocomposites Loaded with Photosynthetic Bacteria. He, Shiying,Duan, Jingjing,Feng, Yanfang,Yang, Bei,Yang, Linzhang,Zhong, Linghao. 2017

[8]Effect of microalgae with semicontinuous harvesting on water quality and zootechnical performance of white shrimp reared in the zero water exchange system. Ge, Hongxing,Ge, Hongxing,Li, Jian,Chang, Zhiqiang,Chen, Ping,Shen, Mingming,Zhao, Fazhen.

[9]A novel growth method for diatom algae in aquaculture waste water for natural food development and nutrient removal. Li, Xiao-li,Tao, Ling,Peng, Liang,Song, Chao-feng,Dai, Li-li,Li, Gu,Marella, Thomas Kiran,Tiwari, Archana,Li, Gu.

[10]Cultivation of green algae Platymonas helgolandica in rearing water enhances the growth performance and resistance of Litopenaeus vannamei against Vibrio parahaemolyticus infection. Ge, Hongxing,Li, Jian,Chen, Ping,Chang, Zhiqiang,Shen, Mingming,Zhao, Fazhen,Ge, Hongxing.

[11]Pretreatment of poultry waste anaerobic digested effluents by chitosan flocculation for Chlorella pyrenoidosa growth and pollutants removal. Wu, Yu,Zhang, Hong,Wu, Yu,Wang, Mengzi,Cao, Wei,Liu, Zhidan,Lu, Haifeng. 2017

[12]Isolation of microalgae with growth restriction and nutrient removal from alkaline wastewater. Ji Fang,Li Gang,Zhou Yuguang,Dong Renjie,Ji Fang,Li Gang,Zhou Yuguang,Dong Renjie,Ji Fang,Wang Yingkuan. 2015

[13]Enhanced Purification of Eutrophic Water by Microbe-Inoculated Stereo Floating Beds. Zhao, Fengliang,Zhang, Songda,Ding, Zheli,Aziz, Rukhsanda,Rafiq, Muhammad Tariq,Li, Hong,Yang, Xiaoe,Zhao, Fengliang,Zhang, Songda,He, Zhenli,Stoffella, Peter J.. 2013

[14]The performance of activated sludge exposed to arsanilic acid and amprolium hydrochloride in sequencing batch reactors. Chen, Kui,Yuan, Shoujun,Wang, Wei,Hu, Zhen-Hu,Ji, Feng,Hao, Wentao,Yuan, Shoujun,Wang, Wei,Hu, Zhen-Hu.

[15]Performance of three microalgal strains in biogas slurry purification and biogas upgrade in response to various mixed light-emitting diode light wavelengths. Zhao, Yongjun,Sun, Shiqing,Zhang, Hui,Xu, Jie,Hu, Changwei,Ping, Lifeng.

[16]Fenced cultivation of water hyacinth for cyanobacterial bloom control. Qin, Hongjie,Zhang, Zhiyong,Liu, Haiqin,Wen, Xuezheng,Zhang, Yingying,Wang, Yan,Yan, Shaohua,Li, Dunhai.

[17]Performance of CO2 concentrations on nutrient removal and biogas upgrading by integrating microalgal strains cultivation with activated sludge. Sun, Shiqing,Ge, Zhigang,Zhao, Yongjun,Zhang, Hui,Hu, Changwei,Ping, Lifeng.

作者其他论文 更多>>

微信小程序