Microbial Granulation Technology for Nutrient Removal from WastewaterNova Publishers, 2007 - 198 pagine Aerobic granulation technology for wastewater treatment has been widely exploited in recent years. Currently, research on aerobic granulation is been intensively conducted in universities, institutes, private or public interest research organisations world-wide. This book provides the latest research outcomes on the fundamentals and applications of this technology for biological nutrient removal from wastewater. The book offers researchers and practitioners in wastewater treatment engineering up-to-date knowledge and understanding of this novel nutrient removal biotechnology. |
Sommario
| 1 | |
| 11 | |
| 27 | |
Microbial Diversity of Aerobic Granules Developed at Different Substrate NCOD Ratios | 51 |
Elemental Composition of Aerobic Granules Developed at Different Substrate NCOD Ratios | 67 |
Effect of DO and Mixing on Removal of Organics and Nitrogen by Aerobic Granules | 79 |
Microbial Granulation under Alternating AerobicAnaerobic Conditions Partial Denitrification without External Carbon Source in Anaerobic Phase | 97 |
Microbial Granulation under Alternating AerobicAnaerobic Conditions Complete Denitrification with External Carbon Source | 121 |
PHB as Internal Carbon Source for Denitrification by Microbial Granules | 141 |
Biological Phosphorus Removal by Microbial Granules | 159 |
The Latest Development in Microbial Granulation Technology for Nutrient Removal | 181 |
Index | 191 |
Parole e frasi comuni
accumulation acetate activated sludge addition aerobic granules aerobic granules developed aerobic phase alternating ammonia oxidizer anaerobic anoxic appears Appl biofilm biological biomass Biotechnol calcium cell cell hydrophobicity Chapter characteristics concentration culture decreased denitrification determined developed at different different substrate N/COD distribution EBPR effect efficiency elemental compositions enhanced Environ Equation et al external carbon source extracellular fact Figure formation further granular sludge heterotrophic higher increased indicate influent lower method microbial aggregates microbial granules Microbiol mixing nitrifying bacteria nitrifying populations nitrite nitrite oxidizer nitrogen removal nutrient removal observed operation organic carbon oxidizer oxygen P/COD populations production profiles reactor reduced reported respective sequencing batch reactor settling shows structure substrate N/COD ratio surface Table Tay JH Technol uptake utilization wastewater Water Res Water Sci weight
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