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ENB 504E
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Course Information
Course Name
Turkish
Çevre Biyoteknolojisinin Esasları II
English
Fundamentals of Env.Biotechn. II
Course Code
ENB 504E
Credit
Lecture
(hour/week)
Recitation
(hour/week)
Laboratory
(hour/week)
Semester
2
3
3
-
-
Course Language
English
Course Coordinator
Seval Sözen
Course Objectives
The main objectives of the course are;
1. to develop skills for the application of the wastewater treatment principles in engineering practices with understanding the stoichiometry and kinetics of microbial growth
2. to develop skills for the conceptual design of the biological wastewater and sludge treatment
processes.
Course Description
Suspended Growth Aerobic Activated Sludge Processes: Kinetics and stoichiometric characteristics,
modifications, fundamental design parameters and principles of modelling; Biological Nutrient Removal:
Biological Nitrogen Removal: Kinetics and stoichiometric characteristics and principles of modeling,
process modifications for biological nitrogen removal/emerging techniques; Biological Nitrogen Removal:
Kinetics and stoichiometric characteristics and principles of modeling, Anaerobic Treatment Processes,
Aerobic Biofilm Processes
Course Outcomes
M.Sc. students who successfully pass this course gain knowledge, skill and competency responsibility in
the following areas:
i. Fundamentals of biological treatment in suspended growth activated sludge processes; kinetic and
stoichiometric characteristics, system modifications (step feeding, step aeration, contact
stabilization, extended aeration, etc.), basis for modeling of Activated Sludge System Processes,
model components, process rate expressions, stoichiometric relations
ii. Fundamental microbiological approaches and basis for biological Nitrogen removal, Nitrogen
Cycle, Aerobic and anoxic microbiological conditions and detailed microbiological steps in
nitrogen removal processes, principles of nitrification and denitrification, basis for design of
biological nitrogen removal systems, recent and emerging applications of biological nitrogen
removal focusing on energy and sustainability,
iii. Fundamental microbiological approaches and basis for biological phosphorus removal, Steps of the
phosphorus removal mechanism under aerobic and anaerobic conditions, process kinetics and
stoichimetry, steady state modeling for mixed cultures and simple system design
iv. Fundamental process approaches in anaerobic treatment processes, process kinetics and
stoichiometry, principles of design and different applications
v. Fundamental process approaches in aerobic biofilm processes, process kinetics and stoichiometry,
principles of design and different applications
Pre-requisite(s)
-
Required Facilities
-
Other
Textbook
1.Orhon, D. and Artan, N. (1984). Modelling of Activated Sludge Systems. Technomic
Publ.Co.Inc., Lancester, PA.
2.Speece, R.E. (1996). Anaerobic Biotechnology, , Archae Press, Tennessee.
3.Rittman, B.E. and McCarty, P.L. (2001). Environmental Biotechnology: Principles and
Applications. McGraw-Hill Companies, Inc., NY.
4. Henze, M., van Loosdrecht, M. C. M., Ekama G.A. and Brdjanovic, D.(2008). Biological
Wastewater Treatment- Principles, Modelling and Design, IWA Publishing.
5.Grady, C.P.L, Daigger, G., Love, N.G. and Filipe, C.D.M. (2011). Biological Wastewater
Treatment. 3rd edition, IWA Publishing.
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