Advances in enhanced biological phosphorus removal: From micro to macro scale

The enhanced biological phosphorus removal (EBPR) process has been implemented in many wastewater treatment plants worldwide. While the EBPR process is indeed capable of efficient phosphorus (P) removal performance, disturbances and prolonged periods of insufficient P removal have been observed at f...

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Veröffentlicht in:	Water research (Oxford) 2007-06, Vol.41 (11), p.2271-2300
Hauptverfasser:	Oehmen, Adrian, Lemos, Paulo C., Carvalho, Gilda, Yuan, Zhiguo, Keller, Jürg, Blackall, Linda L., Reis, Maria A.M.
Format:	Artikel
Sprache:	eng
Schlagworte:	activated sludge Aerobiosis Anaerobiosis Applied sciences biochemical pathways biodegradation Biodegradation, Environmental Biological nutrient removal (BNR) Denitrification emissions enhanced biological phosphorus removal eutrophication Exact sciences and technology Glycogen accumulating organism (GAO) glycogen accumulating organisms literature reviews mathematical models microbial growth microorganisms Models, Theoretical optimization Other industrial wastes. Sewage sludge phosphorus Phosphorus - isolation & purification Phosphorus - metabolism Pollution pollution control Poly- β-hydroxyalkanoate (PHA) polyphosphate accumulating organism Polyphosphate accumulating organism (PAO) process monitoring Sewage - chemistry Sewage - microbiology simulation models Volatile fatty acid (VFA) Waste Disposal, Fluid - methods Waste Management - methods Wastes wastewater treatment water pollution Water treatment and pollution
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container_title	Water research (Oxford)
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creator	Oehmen, Adrian Lemos, Paulo C. Carvalho, Gilda Yuan, Zhiguo Keller, Jürg Blackall, Linda L. Reis, Maria A.M.
description	The enhanced biological phosphorus removal (EBPR) process has been implemented in many wastewater treatment plants worldwide. While the EBPR process is indeed capable of efficient phosphorus (P) removal performance, disturbances and prolonged periods of insufficient P removal have been observed at full-scale plants on numerous occasions under conditions that are seemingly favourable for EBPR. Recent studies in this field have utilised a wide range of approaches to address this problem, from studying the microorganisms that are primarily responsible for or detrimental to this process, to determining their biochemical pathways and developing mathematical models that facilitate better prediction of process performance. The overall goal of each of these studies is to obtain a more detailed insight into how the EBPR process works, where the best way of achieving this objective is through linking together the information obtained using these different approaches. This review paper critically assesses the recent advances that have been achieved in this field, particularly relating to the areas of EBPR microbiology, biochemistry, process operation and process modelling. Potential areas for future research are also proposed. Although previous research in this field has undoubtedly improved our level of understanding, it is clear that much remains to be learned about the process, as many unanswered questions still remain. One of the challenges appears to be the integration of the existing and growing scientific knowledge base with the observations and applications in practice, which this paper hopes to partially achieve.
doi_str_mv	10.1016/j.watres.2007.02.030
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While the EBPR process is indeed capable of efficient phosphorus (P) removal performance, disturbances and prolonged periods of insufficient P removal have been observed at full-scale plants on numerous occasions under conditions that are seemingly favourable for EBPR. Recent studies in this field have utilised a wide range of approaches to address this problem, from studying the microorganisms that are primarily responsible for or detrimental to this process, to determining their biochemical pathways and developing mathematical models that facilitate better prediction of process performance. The overall goal of each of these studies is to obtain a more detailed insight into how the EBPR process works, where the best way of achieving this objective is through linking together the information obtained using these different approaches. This review paper critically assesses the recent advances that have been achieved in this field, particularly relating to the areas of EBPR microbiology, biochemistry, process operation and process modelling. Potential areas for future research are also proposed. Although previous research in this field has undoubtedly improved our level of understanding, it is clear that much remains to be learned about the process, as many unanswered questions still remain. 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While the EBPR process is indeed capable of efficient phosphorus (P) removal performance, disturbances and prolonged periods of insufficient P removal have been observed at full-scale plants on numerous occasions under conditions that are seemingly favourable for EBPR. Recent studies in this field have utilised a wide range of approaches to address this problem, from studying the microorganisms that are primarily responsible for or detrimental to this process, to determining their biochemical pathways and developing mathematical models that facilitate better prediction of process performance. The overall goal of each of these studies is to obtain a more detailed insight into how the EBPR process works, where the best way of achieving this objective is through linking together the information obtained using these different approaches. This review paper critically assesses the recent advances that have been achieved in this field, particularly relating to the areas of EBPR microbiology, biochemistry, process operation and process modelling. Potential areas for future research are also proposed. Although previous research in this field has undoubtedly improved our level of understanding, it is clear that much remains to be learned about the process, as many unanswered questions still remain. One of the challenges appears to be the integration of the existing and growing scientific knowledge base with the observations and applications in practice, which this paper hopes to partially achieve.</abstract><cop>Oxford</cop><pub>Elsevier Ltd</pub><pmid>17434562</pmid><doi>10.1016/j.watres.2007.02.030</doi><tpages>30</tpages></addata></record>
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subjects	activated sludge Aerobiosis Anaerobiosis Applied sciences biochemical pathways biodegradation Biodegradation, Environmental Biological nutrient removal (BNR) Denitrification emissions enhanced biological phosphorus removal eutrophication Exact sciences and technology Glycogen accumulating organism (GAO) glycogen accumulating organisms literature reviews mathematical models microbial growth microorganisms Models, Theoretical optimization Other industrial wastes. Sewage sludge phosphorus Phosphorus - isolation & purification Phosphorus - metabolism Pollution pollution control Poly- β-hydroxyalkanoate (PHA) polyphosphate accumulating organism Polyphosphate accumulating organism (PAO) process monitoring Sewage - chemistry Sewage - microbiology simulation models Volatile fatty acid (VFA) Waste Disposal, Fluid - methods Waste Management - methods Wastes wastewater treatment water pollution Water treatment and pollution
title	Advances in enhanced biological phosphorus removal: From micro to macro scale
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