Simple format.
China, citation; China, 2017, citation of Moscow University research. [Китай, цитирование публикации МГУ].
Research citing: The synecological approach to the problem of eutrophication. https://www.researchgate.net/publication/10614405; https://5bio5.blogspot.com/2017/11/china-citation.html;
Newly published research;
This article was cited in the publication:
A novel Fe(II)-Ca synergistic phosphorus removal process: process optimization and phosphorus recovery;
https://5bio5.blogspot.com/2017/11/china-2017.html;
China, 2017,
citation of Moscow University research.
[Китай, цитирование публикации МГУ].
Research citing: The synecological approach to the problem of eutrophication. https://www.researchgate.net/publication/10614405;
https://5bio5.blogspot.com/2017/11/china-citation.html;
Newly published research;
This article was cited in:
A novel Fe(II)-Ca synergistic phosphorus removal process: process optimization and phosphorus recovery;
Article
Nov 2017;
Environmental Science and Pollution Research;
Lin Qiu,
Meng Zhang,
Xiaoqing Yu,
Ping Zheng,
**
A novel Fe(II)-Ca synergistic phosphorus removal process: process optimization and phosphorus recovery;
Article in Environmental Science and Pollution Research; · November 2017;
DOI: 10.1007/s11356-017-0183-z;
Environmental Science and Pollution Research;
pp 1–8;
A novel Fe(II)-Ca synergistic phosphorus removal process: process optimization and phosphorus recovery;
Authors and affiliations:
Lin Qiu
Meng Zhang
Xiaoqing Yu
Ping Zheng Email author
Research Article
First Online: 02 November 2017;
Affiliation of all the authors:
Department of Environmental Engineering, Zhejiang University, Hangzhou, China
Lin Qiu;
Meng Zhang;
Xiaoqing Yu;
Ping Zheng; Affiliation:
Zhejiang University
Department:
Department of Environmental Engineering;
Zhejiang University;
Abstract:
Phosphorus removal from wastewater is an important means to control eutrophication and to recover phosphorus from wastewater. In this study, a novel Fe(II)-Ca synergistic phosphorus removal process is developed using the complex of ferrous and calcium salts. The results showed that ferrous and calcium had an antagonistic effect at Fe(II)/Ca molar ratio of lower than 1:4, but a synergistic effect at Fe(II)/Ca molar ratio of higher than 1:4, with the strongest synergistic effect at Fe(II)/Ca molar ratio of 7:3. The optimal parameters of this novel process were as follows: Fe(II)/Ca = 3:1, ferrous-calcium complex/phosphorous (M/P) ≥ 1.5:1, pH = 7.0–8.0, and fast mixing speed (FMS) = 100–150 rpm. The cost of phosphorus removal agents was US$1.024 (kg P)⁻¹, reduced by 30.39% compared with that of the traditional phosphorus removal process. The phosphorus content (by P2O5) in the precipitate produced in the new process was 32.70%, which had a high recycling value.
**
Zhejiang University, sometimes referred to as Zheda, is a national university in China. Founded in 1897, Zhejiang University is one of China's oldest, most selective and most prestigious institutions of higher education. [Wikipedia];
Address: 38 Zheda Rd, Xihu Qu, Hangzhou Shi, Zhejiang Sheng, China, 310027;
Phone: +86 571 8517 2244;
Doctoral students: 8,577;
President: Wu Zhaohui (吴朝晖);
Motto: 求是创新 (Seeking the Truth and Pioneering New Trails);
Number of students: 45,678;
**
Library Hall of the University;
China, citation; China, 2017, citation of Moscow University research. [Китай, цитирование публикации МГУ].
Research citing: The synecological approach to the problem of eutrophication. https://www.researchgate.net/publication/10614405; https://5bio5.blogspot.com/2017/11/china-citation.html;
Newly published research;
This article was cited in the publication:
A novel Fe(II)-Ca synergistic phosphorus removal process: process optimization and phosphorus recovery;
https://5bio5.blogspot.com/2017/11/china-2017.html;
China, 2017,
citation of Moscow University research.
[Китай, цитирование публикации МГУ].
Research citing: The synecological approach to the problem of eutrophication. https://www.researchgate.net/publication/10614405;
https://5bio5.blogspot.com/2017/11/china-citation.html;
Newly published research;
This article was cited in:
A novel Fe(II)-Ca synergistic phosphorus removal process: process optimization and phosphorus recovery;
Article
Nov 2017;
Environmental Science and Pollution Research;
Lin Qiu,
Meng Zhang,
Xiaoqing Yu,
Ping Zheng,
**
A novel Fe(II)-Ca synergistic phosphorus removal process: process optimization and phosphorus recovery;
Article in Environmental Science and Pollution Research; · November 2017;
DOI: 10.1007/s11356-017-0183-z;
Environmental Science and Pollution Research;
pp 1–8;
A novel Fe(II)-Ca synergistic phosphorus removal process: process optimization and phosphorus recovery;
Authors and affiliations:
Lin Qiu
Meng Zhang
Xiaoqing Yu
Ping Zheng Email author
Research Article
First Online: 02 November 2017;
Affiliation of all the authors:
Department of Environmental Engineering, Zhejiang University, Hangzhou, China
Lin Qiu;
Meng Zhang;
Xiaoqing Yu;
Ping Zheng; Affiliation:
Zhejiang University
Department:
Department of Environmental Engineering;
Zhejiang University;
Abstract:
Phosphorus removal from wastewater is an important means to control eutrophication and to recover phosphorus from wastewater. In this study, a novel Fe(II)-Ca synergistic phosphorus removal process is developed using the complex of ferrous and calcium salts. The results showed that ferrous and calcium had an antagonistic effect at Fe(II)/Ca molar ratio of lower than 1:4, but a synergistic effect at Fe(II)/Ca molar ratio of higher than 1:4, with the strongest synergistic effect at Fe(II)/Ca molar ratio of 7:3. The optimal parameters of this novel process were as follows: Fe(II)/Ca = 3:1, ferrous-calcium complex/phosphorous (M/P) ≥ 1.5:1, pH = 7.0–8.0, and fast mixing speed (FMS) = 100–150 rpm. The cost of phosphorus removal agents was US$1.024 (kg P)⁻¹, reduced by 30.39% compared with that of the traditional phosphorus removal process. The phosphorus content (by P2O5) in the precipitate produced in the new process was 32.70%, which had a high recycling value.
**
Zhejiang University, sometimes referred to as Zheda, is a national university in China. Founded in 1897, Zhejiang University is one of China's oldest, most selective and most prestigious institutions of higher education. [Wikipedia];
Address: 38 Zheda Rd, Xihu Qu, Hangzhou Shi, Zhejiang Sheng, China, 310027;
Phone: +86 571 8517 2244;
Doctoral students: 8,577;
President: Wu Zhaohui (吴朝晖);
Motto: 求是创新 (Seeking the Truth and Pioneering New Trails);
Number of students: 45,678;
**
Library Hall of the University;