Recent advances in removing phosphorus from wastewater and its future use as fertilizer (1997–2003)

Large quantities of phosphate present in wastewater is one of the main causes of eutrophication that negatively affects many natural water bodies, both fresh water and marine. It is desirable that water treatment facilities remove phosphorus from the wastewater before they are returned to the enviro...

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Published in	Water research (Oxford) Vol. 38; no. 19; pp. 4222 - 4246
Main Authors	de-Bashan, Luz E., Bashan, Yoav
Format	Journal Article
Language	English
Published	Oxford Elsevier Ltd 01.11.2004 Elsevier Science
Subjects	Applied sciences Biological and medical sciences Biotechnology Chemical Precipitation Conservation of Natural Resources Durapatite - chemistry Enhanced biological phosphorus removal Environment and pollution Eutrophication Exact sciences and technology Fertilizers Fundamental and applied biological sciences. Psychology Hemostatics - chemistry Industrial applications and implications. Economical aspects Magnesium Compounds - chemistry Other industrial wastes. Sewage sludge Phosphate precipitation Phosphate-accumulating organisms Phosphates - chemistry Phosphorus - isolation & purification Phosphorus removal Pollution Struvite Waste Disposal, Fluid - methods Wastes Water Pollutants - isolation & purification Water treatment Water treatment and pollution Wetlands South Africa, Free State Water treatment PSF Phosphate-accumulating organisms MGPB PHA EPS PHB Struvite EDTA PGPB Wetlands Phosphorus removal Enhanced biological phosphorus removal COD Phosphate precipitation PSB EBPR 3-HV PAO Phosphates Activated sludge Ammonium Fresh water Hydroxyapatite Waste water Biological purification Eutrophication Agriculture Wetland Seawater Fertilization Chemical precipitation Phosphorus Fertilizers Adsorption Artificial medium Surface water Water pollution Waste water purification
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Abstract	Large quantities of phosphate present in wastewater is one of the main causes of eutrophication that negatively affects many natural water bodies, both fresh water and marine. It is desirable that water treatment facilities remove phosphorus from the wastewater before they are returned to the environment. Total removal or at least a significant reduction of phosphorus is obligatory, if not always fulfilled, in most countries. This comprehensive review summarizes the current status in phosphorus-removal technologies from the most common approaches, like metal precipitation, constructed wetland systems, adsorption by various microorganisms either in a free state or immobilized in polysaccharide gels, to enhanced biological phosphorus removal using activated sludge systems, and several innovative engineering solutions. As chemical precipitation renders the precipitates difficult, if not impossible, to recycle in an economical industrial manner, biological removal opens opportunities for recovering most of the phosphorus and beneficial applications of the product. This review includes the options of struvite (ammonium-magnesium-phosphate) and hydroxyapatite formation and other feasible options using, the now largely regarded contaminant, phosphorus in wastewater, as a raw material for the fertilizer industry. Besides updating our knowledge, this review critically evaluates the advantage and difficulties behind each treatment and indicates some of the most relevant open questions for future research.
AbstractList	Large quantities of phosphate present in wastewater is one of the main causes of eutrophication that negatively affects many natural water bodies, both fresh water and marine. It is desirable that water treatment facilities remove phosphorus from the wastewater before they are returned to the environment. Total removal or at least a significant reduction of phosphorus is obligatory, if not always fulfilled, in most countries. This comprehensive review summarizes the current status in phosphorus-removal technologies from the most common approaches, like metal precipitation, constructed wetland systems, adsorption by various microorganisms either in a free state or immobilized in polysaccharide gels, to enhanced biological phosphorus removal using activated sludge systems, and several innovative engineering solutions. As chemical precipitation renders the precipitates difficult, if not impossible, to recycle in an economical industrial manner, biological removal opens opportunities for recovering most of the phosphorus and beneficial applications of the product. This review includes the options of struvite (ammonium-magnesium-phosphate) and hydroxyapatite formation and other feasible options using, the now largely regarded contaminant, phosphorus in wastewater, as a raw material for the fertilizer industry. Besides updating our knowledge, this review critically evaluates the advantage and difficulties behind each treatment and indicates some of the most relevant open questions for future research. Large quantities of phosphate present in wastewater is one of the main causes of eutrophication that negatively affects many natural water bodies, both fresh water and marine. It is desirable that water treatment facilities remove phosphorus from the wastewater before they are returned to the environment. Total removal or at least a significant reduction of phosphorus is obligatory, if not always fulfilled, in most countries. This comprehensive review summarizes the current status in phosphorus-removal technologies from the most common approaches, like metal precipitation, constructed wetland systems, adsorption by various microorganisms either in a free state or immobilized in polysaccharide gels, to enhanced biological phosphorus removal using activated sludge systems, and several innovative engineering solutions. As chemical precipitation renders the precipitates difficult, if not impossible, to recycle in an economical industrial manner, biological removal opens opportunities for recovering most of the phosphorus and beneficial applications of the product. This review includes the options of struvite (ammonium-magnesium-phosphate) and hydroxyapatite formation and other feasible options using, the now largely regarded contaminant, phosphorus in wastewater, as a raw material for the fertilizer industry. Besides updating our knowledge, this review critically evaluates the advantage and difficulties behind each treatment and indicates some of the most relevant open questions for future research.Large quantities of phosphate present in wastewater is one of the main causes of eutrophication that negatively affects many natural water bodies, both fresh water and marine. It is desirable that water treatment facilities remove phosphorus from the wastewater before they are returned to the environment. Total removal or at least a significant reduction of phosphorus is obligatory, if not always fulfilled, in most countries. This comprehensive review summarizes the current status in phosphorus-removal technologies from the most common approaches, like metal precipitation, constructed wetland systems, adsorption by various microorganisms either in a free state or immobilized in polysaccharide gels, to enhanced biological phosphorus removal using activated sludge systems, and several innovative engineering solutions. As chemical precipitation renders the precipitates difficult, if not impossible, to recycle in an economical industrial manner, biological removal opens opportunities for recovering most of the phosphorus and beneficial applications of the product. This review includes the options of struvite (ammonium-magnesium-phosphate) and hydroxyapatite formation and other feasible options using, the now largely regarded contaminant, phosphorus in wastewater, as a raw material for the fertilizer industry. Besides updating our knowledge, this review critically evaluates the advantage and difficulties behind each treatment and indicates some of the most relevant open questions for future research.
Author	de-Bashan, Luz E. Bashan, Yoav
Author_xml	– sequence: 1 givenname: Luz E. surname: de-Bashan fullname: de-Bashan, Luz E. organization: Environmental Microbiology Group, Center for Biological Research of the Northwest (CIB), P.O. Box 128, La Paz, B.C.S. 23000, Mexico – sequence: 2 givenname: Yoav surname: Bashan fullname: Bashan, Yoav email: bashan@cibnor.mx organization: Environmental Microbiology Group, Center for Biological Research of the Northwest (CIB), P.O. Box 128, La Paz, B.C.S. 23000, Mexico
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Snippet	Large quantities of phosphate present in wastewater is one of the main causes of eutrophication that negatively affects many natural water bodies, both fresh...
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SubjectTerms	Applied sciences Biological and medical sciences Biotechnology Chemical Precipitation Conservation of Natural Resources Durapatite - chemistry Enhanced biological phosphorus removal Environment and pollution Eutrophication Exact sciences and technology Fertilizers Fundamental and applied biological sciences. Psychology Hemostatics - chemistry Industrial applications and implications. Economical aspects Magnesium Compounds - chemistry Other industrial wastes. Sewage sludge Phosphate precipitation Phosphate-accumulating organisms Phosphates - chemistry Phosphorus - isolation & purification Phosphorus removal Pollution Struvite Waste Disposal, Fluid - methods Wastes Water Pollutants - isolation & purification Water treatment Water treatment and pollution Wetlands
Title	Recent advances in removing phosphorus from wastewater and its future use as fertilizer (1997–2003)
URI	https://dx.doi.org/10.1016/j.watres.2004.07.014 https://www.ncbi.nlm.nih.gov/pubmed/15491670 https://www.proquest.com/docview/20716022 https://www.proquest.com/docview/46664275 https://www.proquest.com/docview/66988937
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