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Ammonium-Nitrogen Recovery from Wastewater by Struvite Crystallization Technology
Struvite crystallization is one of the sustainable approaches for recovering ammonium nitrogen (NH 4 -N) from wastewater in the form of a valuable material, in parallel with improving wastewater treatment efficiency. Focusing on NH 4 -N recovery, this review discusses the factors influencing struvit...
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| Published in: | Separation and purification reviews 2016-10, Vol.45 (4), p.261-274 |
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| Main Authors: | , , , , |
| Format: | Article |
| Language: | English |
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| cited_by | cdi_FETCH-LOGICAL-c347t-d3cec7346b1b240d8861bb1a06feb7fb50dff39adfeb90da097b34176d03786a3 |
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| cites | cdi_FETCH-LOGICAL-c347t-d3cec7346b1b240d8861bb1a06feb7fb50dff39adfeb90da097b34176d03786a3 |
| container_end_page | 274 |
| container_issue | 4 |
| container_start_page | 261 |
| container_title | Separation and purification reviews |
| container_volume | 45 |
| creator | Darwish, Mohamad Aris, Azmi Puteh, Mohd Hafiz Abideen, Muzaffar Zainal Othman, Mohd Nor |
| description | Struvite crystallization is one of the sustainable approaches for recovering ammonium nitrogen (NH
4
-N) from wastewater in the form of a valuable material, in parallel with improving wastewater treatment efficiency. Focusing on NH
4
-N recovery, this review discusses the factors influencing struvite crystallization including the effect of foreign elements. It is shown that more than 95% of NH
4
-N could be recovered in the form of struvite, a magnesium-ammonium phosphate (MAP) salt, from some kinds of wastewater. This review emphasizes the role of utilizing alternative sources of Mg and P in improving the process sustainability. Additionally, it also explains how the MAP precipitation process could result with significant reduction of other pollutants contributing to total organic carbon, of color and turbidity, which support MAP integration with other treatment methods. The main options of lowering MAP recovery cost are presented; it was shown that applying low-cost materials of both Mg and P could save more than 65% of the process's cost. Finally, the future research directions to improve NH
4
-N recovery are pointed out. |
| doi_str_mv | 10.1080/15422119.2015.1119699 |
| format | article |
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4
-N) from wastewater in the form of a valuable material, in parallel with improving wastewater treatment efficiency. Focusing on NH
4
-N recovery, this review discusses the factors influencing struvite crystallization including the effect of foreign elements. It is shown that more than 95% of NH
4
-N could be recovered in the form of struvite, a magnesium-ammonium phosphate (MAP) salt, from some kinds of wastewater. This review emphasizes the role of utilizing alternative sources of Mg and P in improving the process sustainability. Additionally, it also explains how the MAP precipitation process could result with significant reduction of other pollutants contributing to total organic carbon, of color and turbidity, which support MAP integration with other treatment methods. The main options of lowering MAP recovery cost are presented; it was shown that applying low-cost materials of both Mg and P could save more than 65% of the process's cost. Finally, the future research directions to improve NH
4
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4
-N) from wastewater in the form of a valuable material, in parallel with improving wastewater treatment efficiency. Focusing on NH
4
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4
-N could be recovered in the form of struvite, a magnesium-ammonium phosphate (MAP) salt, from some kinds of wastewater. This review emphasizes the role of utilizing alternative sources of Mg and P in improving the process sustainability. Additionally, it also explains how the MAP precipitation process could result with significant reduction of other pollutants contributing to total organic carbon, of color and turbidity, which support MAP integration with other treatment methods. The main options of lowering MAP recovery cost are presented; it was shown that applying low-cost materials of both Mg and P could save more than 65% of the process's cost. Finally, the future research directions to improve NH
4
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4
-N) from wastewater in the form of a valuable material, in parallel with improving wastewater treatment efficiency. Focusing on NH
4
-N recovery, this review discusses the factors influencing struvite crystallization including the effect of foreign elements. It is shown that more than 95% of NH
4
-N could be recovered in the form of struvite, a magnesium-ammonium phosphate (MAP) salt, from some kinds of wastewater. This review emphasizes the role of utilizing alternative sources of Mg and P in improving the process sustainability. Additionally, it also explains how the MAP precipitation process could result with significant reduction of other pollutants contributing to total organic carbon, of color and turbidity, which support MAP integration with other treatment methods. The main options of lowering MAP recovery cost are presented; it was shown that applying low-cost materials of both Mg and P could save more than 65% of the process's cost. Finally, the future research directions to improve NH
4
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| ispartof | Separation and purification reviews, 2016-10, Vol.45 (4), p.261-274 |
| issn | 1542-2119 1542-2127 |
| language | eng |
| recordid | cdi_crossref_primary_10_1080_15422119_2015_1119699 |
| source | Taylor and Francis Science and Technology Collection |
| subjects | Alternative Mg/P sources fertilizer magnesium phosphate |
| title | Ammonium-Nitrogen Recovery from Wastewater by Struvite Crystallization Technology |
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