Advanced Biological Treatment Processes /
edited by Lawrence K. Wang, Nazih K. Shammas, Yung-Tse Hung.
- recurso en línea.
- Handbook of Environmental Engineering ; 9 .
Springer eBooks
Principles and Kinetics of Biological Processes -- Vertical Shaft Bioreactors -- Aerobic Granulation Technology -- Membrane Bioreactors -- SBR Systems for Biological Nutrient Removal -- Simultaneous Nitrification and Denitrification (SymBio® Process) -- Single-Sludge Biological Systems for Nutrients Removal -- Selection and Design of Nitrogen Removal Processes -- Column Bioreactor Clarifier Process (CBCP) -- Upflow Sludge Blanket Filtration -- Anaerobic Lagoons and Storage Ponds -- Vertical Shaft Digestion, Flotation, and Biofiltration -- Land Application of Biosolids -- Deep-Well Injection for Waste Management -- Natural Biological Treatment Processes -- Emerging Suspended-Growth Biological Processes -- Emerging Attached-Growth Biological Processes.
Volume 9: Advanced Biological Treatment Processes in the Handbook of Environmental Engineering series provides critical insight into pollution-abatement engineering. This outstanding collection of methodologies is designed as a review of engineering systems currently being used, as well as their potential for use in pollution abatement. The book’s expert panel of authors provides a look at a range of topics, including principles and kinetics of biological processes, vertical shaft bioreactors, upflow sludge blanket filtration, membrane bioreactors, column bioreactor, SBR, nitrification, denitrification, and emerging biological processes. Volume 9: Advanced Biological Treatment Processes and its sister book - Volume 8: Biological Treatment Processes – are indispensable as both basic biological treatment textbooks and comprehensive reference books for advanced undergraduate and graduate students, designers of waste treatment systems, scientists, and researchers. A gold-standard addition to The Humana Press series, Volume 9: Advanced Biological Treatment Processes gives readers a cutting-edge illustration of the theory and practice of biological abatement systems and their critical role in environmental issues today.