文摘
英文文摘
论文说明:LIST OF ABBREVIATIONS
声明
CHAPTER 1 INTRODUCTION
1.1 Research background
1.2 Outline of this research
References
CHAPTER 2 BIBLIOGRAPHY
2.1 Anaerobic digestion
2.1.1 Advantages and disadvantages
2.1.2 Mechanism of anaerobic digestion
2.1.3 Control of anaerobic digestion
2.1.4 High rate anaerobic reactor technologies
2.2 Anaerobic digestion of milk permeate wastewaters
2.2.1 Origin and characteristics of milk permeate
2.2.2 Anaerobic digestion for milk permeate disposals
2.3 Mathematical modeling of biofilm reactor
2.3.1 Common methods for biofilm reactor modeling
2.3.2 Models for anaerobic reactors
2.3.3 Proposed models for the structure of biofilm
References
CHAPTER 3 MATERIALS AND EXPERIMENTAL PROCEDURES
3.1 Selection of materials
3.2 Reagents
3.3 Analytical methods
3.4 Experimental Methods
3.4.1 Evaluation and optimization of operational parameters for AMBBR
3.4.2 Application of AMBBR in treating milk permeate wastewaters
3.4.3 Experiments for AMBBR modeling
References
CHAPTER 4 EVALUATION AND OPTIMIZATION OF OPERATIONAL PARAMETERS FOR AMBBR
4.1 Impact of biomass density(Expt#1)
4.1.1 Resuits and discussion
4.1.2 Summaries
4.2 Impact of bio-carrier packing(Expt#2)
4.2.1 Resuits and discussion
4.2.2 Summaries
4.3 Impact of feeding time and organic loading(Expt#3)
4.3.1 Results and discussion
4.3.2 Summaries
4.4 Impact of F/M ratio(Expt#4)
4.4.1 Resuits and discussion
4.4.2 Summaries
References
CHAPTER 5 APPLICATION AND KINETIC ANALYSES OF AMBBR IN TREATING MILK PERMEATE WASTEWATERS
5.1 Biochemical methane potential of MP(Expt#5)
5.1.1 Results and discussion
5.1.2 Summaries
5.2 AMBBR treatment of MP and MPW(Expt#6)
5.2.1 AMBBR treatment of milk permeate wastewater(MP)
5.2.2 AMBBR treatment of milk permeate mixed with washing water(MPW)
5.2.3 Biomass inside reactors
5.2.4 Reactor response to shock loadings
5.2.5 SEM observation of biofilm and cultured bacteria
5.2.6 Comparison with other anaerobic treatments
5.2.7 Influence factors
5.2.8 Summaries
5.3 Kinetic analyses
5.3.1 Operational parameters and process stability
5.3.2 Process efficiency
5.3.3 Substrate balance model
5.3.4 Maximum substrate utilization rate(Stover-Kincannon model)
5.3.5 Kinetics of methane production(Michaelis-Menten model)
5.3.6 Sludge yield coefficient
5.3.7 Summaries
References
CHAPTER 6 MATHEMATICAL MODELING OF AMBBR TREATMENT
6.1 Materials and methods
6.2 Model development
6.2.1 Model assumptions
6.2.2 The concept of the AMBBR model
6.2.3 Main modeling hypotheses
6.2.4 Main mathematical model equations
6.3 Sensitivity analyses and parameter estimations
6.4 Verification
6.5 Model calibration
6.5.1 Scenario one:reference condition
6.5.2 Scenario two:different feeding frequencies
6.5.3 Scenario three:with high NH4+ concentration
6.6 Model implementation
6.6.1 Prediction of AMBBR by the model
6.6.2 Simulation for AMBBR treating MP(milk permeate)
6.6.3 Simulation for AMBBR treating MPW
6.7 Summaries
References
CHAPTER 7 CONCLUSIONS AND SUGGESTIONS
7.1 Conclusions
7.2 Innovations
7.3 Drawbacks
ACKNOWLEDGEMENTS
PUBLICATIONS
APPENDIX