Water and Waste Water Treatment
Code | Completion | Credits | Range | Language |
---|---|---|---|---|
144WWWT | Z,ZK | 6 | 3P+2C | English |
- Garant předmětu:
- Jaroslav Pollert, Kateřina Slavíčková
- Lecturer:
- Jaroslav Pollert, Kateřina Slavíčková
- Tutor:
- Jaroslav Pollert, Kateřina Slavíčková, Vadim Strogonov
- Supervisor:
- Department of Urban Water Management
- Synopsis:
-
The course presents fundamental concepts of biological, chemical and physical processes in water and wastewater treatment engineering both theoretically in lectures and practically in excercises.
- Requirements:
-
none
- Syllabus of lectures:
-
Lectures:
1. Introduction, basic processes in water and wastewater treatment
2. Chemical oxidation and disinfection
3. Precipitation, flocculation, coagulation, flotation
4. Filtration, activated carbon adsorption
5. Ion exchange, membrane treatment, groundwater treatment
6. Process combination in drinking water treatment
7. Activated sludge process
8. Nitrification / denitrification / biological P elimination
9. Biofilm and application to full scale plants
10. Anaerobic processes, sludge stabilization, nutrients recovery
11. Gas exchange
12. Sedimentation, flotation
13. Process combination in wastewater treatment and re-use
- Syllabus of tutorials:
-
Exercises:
Introduction to Computational Fluid Dynamics
Standard Cases CFD
STAR - Geom+Meshing of the Jar Test Model
STAR - CFD Simulations of the Mixing Tank
ANSYS/STAR - PostCFD Data Processing
Practical Applications in Water Quality: A Lab-Based Exploration of Coagulants, Flocculation and Jar Testing Techniques
Laboratory Data Processing, Coupling with the CFD Model
CFD Workshop: Model Design
CFD Workshop: Meshing
CFD Workshop: Simulation
CFD Workshop: Postprocessing
Conclusion
- Study Objective:
-
The purpose of this course is to study fundamental concepts of biological, chemical and physical processes in water and wastewater treatment engineering. Using basic process understanding, students should be able to evaluate existing water and wastewater treatment plants and to combine the processes to design fit-for-purpose new plants.
- Study materials:
-
! Henze M., Harremoes, P., la Cour Jansen J. and Arvin E. (2002). Wastewater Treatment: Biological and Chemical Processes, Springer.
! Suzanne Monaghan: Water Treatment Manual, 2011
? Wastewater Treatment Plant Design (Book + Student Workbook) P. Aarne Vesilund 2003, ISBN: 1 84339 024 8, 1 84339 052 3.
- Note:
- Further information:
- bude vytvořena před začátkem výuky nové akreditace http://kzei.fsv.cvut.cz/vyuka
- No time-table has been prepared for this course
- The course is a part of the following study plans: