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Enhanced Biological Phosphorus Removal

Metabolic Insights and Salinity Effects

The Enhanced Biological Phosphorus Removal (EBPR) process is a biological process for efficient phosphate removal from wastewaters through intracellular storage of polyphosphate by Phosphate-Accumulating Organisms (PAO) and subsequent removal through wastage of excess sludge. Les mer
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Vår pris: 2279,-

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Leveringstid: Sendes innen 21 dager
På grunn av Brexit-tilpasninger og tiltak for å begrense covid-19 kan det dessverre oppstå forsinket levering.

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The Enhanced Biological Phosphorus Removal (EBPR) process is a biological process for efficient phosphate removal from wastewaters through intracellular storage of polyphosphate by Phosphate-Accumulating Organisms (PAO) and subsequent removal through wastage of excess sludge. Although many studies have demonstrated the existence of different PAO clades, the functional differences among these clades and potential implications for the process performance remained unclear. Furthermore, the salinity effects on the EBPR process had not been properly investigated, which is necessary to assess its applicability for the treatment of saline wastewaters.



The first part of the thesis focuses on the functional diversity among PAO clades. It demonstrates significant functional differences in the main characteristics of the anaerobic metabolism of two different PAO clades and provides fundamental insight in the metabolic response of PAO to different influent P/C ratios. In addition, it shows how these functional differences provide competitive advantages to specific PAO clades in a selection study and discusses their potential implications on process performance, in particular for combined biological and chemical systems for nutrient removal and recovery.



The second part of the thesis describes the salinity effects on the metabolism of PAO and their competitors that do not contribute to phosphorus removal; the so-called Glycogen-Accumulating Organisms (GAO). It shows how salinity affects the different metabolic processes (kinetics and stochiometry) of PAO and GAO and provides a model that describes the salinity effects on their kinetic rates. Finally, it discusses the potential implications of sudden saline shocks in wastewater treatment systems that are not regularly exposed to salinity.

Fakta

Innholdsfortegnelse

1 GENERAL INTRODUCTION
1.1 INTRODUCTION
1.2 ENHANCED BIOLOGICAL PHOSPHATE REMOVAL (EBPR)
1.2.1 PAO METABOLISM
1.3 FACTORS AFFECTING THE EBPR PROCESS PERFORMANCE
1.4 SALINITY AS A FACTOR AFFECTING MICROORGANISMS
1.5 SCOPE OF THESIS
1.6 REFERENCES


2 ACCUMULIBACTER CLADES TYPE I AND II PERFORMING KINETICALLY DIFFERENT GLYCOGENACCUMULATING ORGANISMS METABOLISMS FOR ANAEROBIC SUBSTRATE UPTAKE
ABSTRACT
2.1 INTRODUCTION
2.2 MATERIAL AND METHODS
2.3 RESULTS
2.4 DISCUSSION
2.5 CONCLUSIONS
2.6 ACKNOWLEDGEMENT
2.7 REFERENCES
2.8 APPENDIX 2A
2.9 SUPPLEMENTARY DATA


3 METABOLIC RESPONSE OF 'CANDIDATUS ACCUMULIBACTER PHOSPHATIS' CLADE II TO CHANGES IN THE INFLUENT P/C RATIO
ABSTRACT
3.1 INTRODUCTION
3.2 MATERIAL AND METHODS
3.3 RESULTS
3.4 DISCUSSION
3.5 CONCLUSIONS
3.6 ACKNOWLEDGEMENTS
3.7 REFERENCES
3.8 APPENDIX 3A, DETAILED DESCRIPTION OF EQUATIONS FOR POLY-P ESTIMATION


4 PREVALENCE OF 'CANDIDATUS ACCUMULIBACTER PHOSPHATIS' CLADE II UNDER PHOSPHATE LIMITING CONDITIONS
ABSTRACT
4.1 INTRODUCTION
4.2 MATERIAL AND METHODS
4.3 RESULTS
4.4 DISCUSSION
4.5 CONCLUSIONS
4.6 ACKNOWLEDGEMENTS
4.7 REFERENCES


5 DENITRIFICATION PATHWAYS OF PAO CLADE I WITH DIFFERENT CARBON SOURCES
ABSTRACT
5.1 INTRODUCTION
5.2 MATERIAL AND METHODS
5.3 RESULTS
5.4 DISCUSSION
5.5 CONCLUSIONS
5.7 REFERENCES


6 IMPACT OF SALINITY ON THE ANAEROBIC METABOLISM OF POLYPHOSPHATE-ACCUMULATING ORGANISMS (PAO) AND GLYCOGEN-ACCUMULATING ORGANISMS (GAO)
ABSTRACT
6.1 INTRODUCTION
6.2 MATERIAL AND METHODS
6.3 RESULTS
6.4 DISCUSSION
6.5 CONCLUSIONS
6.6 ACKNOWLEDGEMENTS
6.7 REFERENCES
6.8 APPENDIX 6A
6.9 APPENDIX 6B.
6.10 APPENDIX 6C.


7 IMPACT OF SALINITY ON THE AEROBIC METABOLISM OF POLYPHOSPHATE-ACCUMULATING ORGANISMS
ABSTRACT
7.1 INTRODUCTION
7.2 MATERIAL AND METHODS
7.3 RESULTS
7.4 DISCUSION
7.5 CONCLUSIONS
7.6 ACKNOWLEDGEMENTS
7.7 REFERENCES
7.8 APPENDIX 7A
7.9 APPENDIX 7B


8 GENERAL CONCLUSIONS AND OUTLOOK
8.1 METABOLIC FLEXIBILITY AND FUNCTIONAL DIVERSITY AMONG ACCUMULIBACTER CLADES
8.2 SALINITY EFFECTS ON PAO AND GAO
8.3 REFERENCES

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