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Water Res


Title:The design of multi-stage open-loop hollow fiber membrane contactor and its application in ammonia capture from hydrolyzed human urine
Author(s):Zhang J; Xie M; Yang D; Tong X; Qu D; Feng L; Zhang L;
Address:"Beijing Key Laboratory for Source Control Technology of Water Pollution, Beijing Forestry University, 35 Qinghua East Road, Haidian District, Beijing, 100083, China; College of Environmental Science and Engineering, Beijing Forestry University, 35 Qinghua East Road, Haidian District, Beijing, 100083, China. Jinan Environmental Research Academy, 25th Floor, Xinsheng Building, 1299 Xinluo Street, Lixia District, Jinan, Shandong, 250014, China. Brook Byers Institute for Sustainable Systems, Georgia Institute of Technology, Atlanta, GA 30308, United States. Beijing Key Laboratory for Source Control Technology of Water Pollution, Beijing Forestry University, 35 Qinghua East Road, Haidian District, Beijing, 100083, China; College of Environmental Science and Engineering, Beijing Forestry University, 35 Qinghua East Road, Haidian District, Beijing, 100083, China. Electronic address: qudan@bjfu.edu.cn. Beijing Key Laboratory for Source Control Technology of Water Pollution, Beijing Forestry University, 35 Qinghua East Road, Haidian District, Beijing, 100083, China; College of Environmental Science and Engineering, Beijing Forestry University, 35 Qinghua East Road, Haidian District, Beijing, 100083, China. Electronic address: fengli@bjfu.edu.cn"
Journal Title:Water Res
Year:2021
Volume:20211028
Issue:
Page Number:117811 -
DOI: 10.1016/j.watres.2021.117811
ISSN/ISBN:1879-2448 (Electronic) 0043-1354 (Linking)
Abstract:"Hollow fiber membrane contactor (HFMC) is a promising technology for removing or recovering wastewaters' volatile components. Developing a rational design method is very important for guiding its further application. In this study, we proposed a method to design the multi-stage open-loop hollow fiber membrane contactor (HFMC) employing shell-side influent. In addition, a three-stage HFMC was designed to capture ammonia from real hydrolyzed human urine. A continuous 1344 h performance was conducted. The results showed that the experimental effluent total ammonium nitrogen (TAN) concentration and ammonia mass transfer coefficient matched the predicted results well, which indicated that the design method was feasible and accurate. The three-stage HFMC showed excellent ammonia capture capacity with a TAN recovery efficiency of 93.29%, and the final effluent TAN concentration was 30.98+/-14.70 mg/L which met our design requirement (lower than 50 mg/L). More than 98.92% of the inorganic ions and 96.85% of the organic matter were retained in the effluent. The stripping solution after ammonia capture was the high-purity ammonium sulfate solution with low concentration of small molecular weight hydrophilic organic substances. The inorganic and organic membrane fouling was mild and randomly distributed. The inorganic membrane fouling was attributed to the deposition of calcium-, magnesium-, phosphate-related inorganic compounds, while the organic membrane fouling was mainly protein and carbohydrate. After the ammonia capture process, the surface hydrophobicity and pore properties of the membranes had no significant changes. These results demonstrated that the multi-stage open-loop HFMC could be a potential alternative for ammonia recovery from the high concentration of ammonium nitrogen wastewater"
Keywords:"*Ammonia Ammonium Sulfate Humans Membranes, Artificial Nitrogen *Wastewater Ammonia capture Design method Hydrolyzed human urine Multi-stage HFMC Open-loop;"
Notes:"MedlineZhang, Junhui Xie, Mengfei Yang, Dandan Tong, Xin Qu, Dan Feng, Li Zhang, Liqiu eng England 2021/11/12 Water Res. 2021 Dec 1; 207:117811. doi: 10.1016/j.watres.2021.117811. Epub 2021 Oct 28"

 
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