Course Details
Hydrology of Sewer Systems
Academic Year 2023/24
BPB012 course is part of 1 study plan
BPC-SI / V Summer Semester 4th year
The content of the subject Hydrology of Sewer Networks is the solution of the problems connected with the widely subject Wastewater Collection and Wastewater Treatment. The basis is the general hydrology from which the subject matter comes out and follows it. In the subject are solved rain data as a basic parameter of simulation means, precipitation measurements, contemporary concept of urban drainage systems, monitoring and simulation modeling, detailed description of sewage systems and ways of drainage, flow measurement, rainwater management, description of selected objects on sewer network, general drainage plan and plans for the development of water supply and sewerage systems.
Course Guarantor
Institute
Objective
The subject introduce students with special hydrology and hydraulics, which is assert in sewer systems.
Knowledge
Student will manage aim of course: design and project of special hydrology and hydraulics, which is assert in sewer systems.
Syllabus
1. Introduction, objectives, tasks of hydrology of sewer networks.
2. Storm data as a basic parameter of simulation tools, measuring precipitation.
3. The modern concept of urban drainage systems solutions, monitoring and simulation modeling, key performance indicators, the fundamental solution of water management tasks.
4. Basic aspects of the correct use of simulation models for water management tasks - the types of models, data for the simulation models, calibration and verification.
5. Gravity, vacuum and pressure sewers.
6. Measurement of flow in sewerage network.
7. Recommended structure of project documentation.
8. Management of rain water.
9. Structures of sewerage networks.
10. Retention and detention tanks.
11. General plan of drainage plans for development of water supply and sewerage.
2. Storm data as a basic parameter of simulation tools, measuring precipitation.
3. The modern concept of urban drainage systems solutions, monitoring and simulation modeling, key performance indicators, the fundamental solution of water management tasks.
4. Basic aspects of the correct use of simulation models for water management tasks - the types of models, data for the simulation models, calibration and verification.
5. Gravity, vacuum and pressure sewers.
6. Measurement of flow in sewerage network.
7. Recommended structure of project documentation.
8. Management of rain water.
9. Structures of sewerage networks.
10. Retention and detention tanks.
11. General plan of drainage plans for development of water supply and sewerage.
Prerequisites
Sewerages and waste water treatment, Hydraulics, Hydrology, Utility Networks.
Language of instruction
Czech
Credits
6 credits
Semester
summer
Forms and criteria of assessment
course-unit credit and examination
Specification of controlled instruction, the form of instruction, and the form of compensation of the absences
Extent and forms are specified by guarantor’s regulation updated for every academic year.
Offered to foreign students
Not to offer
Course on BUT site
Lecture
13 weeks, 2 hours/week, elective
Syllabus
1. Introduction, objectives, tasks of hydrology of sewer networks.
2. Storm data as a basic parameter of simulation tools, measuring precipitation.
3. The modern concept of urban drainage systems solutions, monitoring and simulation modeling, key performance indicators, the fundamental solution of water management tasks.
4. Basic aspects of the correct use of simulation models for water management tasks - the types of models, data for the simulation models, calibration and verification.
5. Gravity, vacuum and pressure sewers.
6. Measurement of flow in sewerage network.
7. Recommended structure of project documentation.
8. Management of rain water.
9. Structures of sewerage networks.
10. Retention and detention tanks.
11. General plan of drainage plans for development of water supply and sewerage.
Exercise
13 weeks, 3 hours/week, compulsory
Syllabus
1. Assessment of the capacity of a combined and separate sewer system I.
2. Assessment of the capacity of a combined and separate sewer system II.
3. Dimensioning of the sewer system with simulation model.
4. Dimensioning of the sewer system with simulation model.
5. Dimensioning of the sewer system with simulation model.
6. Dimensioning of the sewer system with simulation model.
7. Dimensioning of the sewer system with simulation model.
8. Design of retention tank.
9. Design of sewer overflow.
10. Design of sewer overflow.
11. Credit.