After successful completion of this course the student is able to:
- Describe and relate basic terms in hydrology, flood protection, water supply and water quality.
- Draw the water balance of a described system and quantitatively determine the effects of interventions in that system on water flows using numerical and analytical approaches, and the unit-hydrograph method.
- Estimate the probability of river flooding and describe alternative ways to reduce flood risk and explain their (dis)advantages.
- Demonstrate the effect of interventions in a river’s cross section on river discharge (Q) and water level (h) using Q-h relations.
- Estimate water flow through a dam or dike using Darcy’s law, and explain which variables influence this flow.
- Calculate water shortages and storage requirements for a water supply problem with different water users and demands.
- Identify, sketch and describe the hydrostatic forces on a dam, test dam stability, and explain how it can be improved.
- Conceptualize diverse water quality issues resulting from different sources in aquatic systems
- Draw the mass/concentration balance of a described system and quantitatively determine the effects of interventions in that system on water quality (different type of substances, organisms, temperature) using numerical and analytical approaches.
This is a part of Module 2, Water Management of the Bachelor Civil Engineering. See here for the complete description of this module.
This course a part of Module 2, Water Management of the Bachelor Civil Engineering (B-CE-MOD02). The course gives a first introduction to the field of water management, with a focus on quantitative analysis. We cover the basics of hydrology, hydrostatics, free surface flow, groundwater flow, water quality, and transport of substances and sediments in water. You will learn to perform calculations and solve problems for simplified water management problems. The course contains a series of lectures and work seminars, spread over a period of eight weeks. Every week there is one lecture (2 hours) and one work seminar (also 2 hours). The lectures will provide you with theory, context, and examples. Not all material of the course will be discussed during the lectures; there are several parts you should examine through self-study. The work seminars are meant to practice with exercises with available support from teaching assistants.
External students who are interested in this elective: please contact Peter Jansen (email@example.com)
Written, closed-book exam with a mix of open and closed questions; a formula sheet will be distributed, which lists the main equations of the course.