Learning Outcomes:
Upon completion of this course, students should be able to:
1. Understand the relationships between probability, risk and return period and their implications for design specifications
2. Calculate the required design flood peak for any given return period and storm duration.
3. Where appropriate, calculate the complete design hydrograph.
4. Calculate the appropriate dimensions of a culvert or bridge opening to pass safely the design flood within the allowable freeboard
5. Prescribe the most appropriate flood protection measures, either structural or non-structural, for a given situation.
6. Using a computer model, compute the performance of the hydraulic flood protection measures in terms of water levels, discharges and risk (return periods)
7. Calculate the appropriate dimensions for the spillway, chute and stilling basin of a dam
8. Understand the principles governing the movement of plumes in water bodies
9. Specify appropriate dimensions for sea outfalls and risers.
Indicative Module Content:
Hydrologic Design:
• Causes of floods;
• Estimation of magnitudes and frequency of peak flows;
• Flood hydrographs;
• Designing for flood protection
Stormwater Drainage Design
• Urban development
• Urban drainage systems
• Planning and environmental requirements
• Design of Culverts
• Flood attenuation design (retention and detention basins)
• Sustainable urban drainage systems (SUDS)
River Engineering
• Computer modelling of floods in rivers
• Flood protection - hydraulic options
• Hydraulic structures
• Overbank flows
• Environmental considerations
Dam Ancillary Works
• Spillways
• Chutes
• Energy dissipation
Coastal Engineering
• Types of wave
• Wave breaking, runup
• Design of sea outfalls