HYDROLOGY AND WATER RESOURSES MANAGEMENT

Academic year
2020/2021 Syllabus of previous years
Official course title
IDROLOGIA E GESTIONE DELLE RISORSE IDRICHE
Course code
CM0534 (AF:314310 AR:168154)
Modality
On campus classes
ECTS credits
6 out of 12 of GEORESOURCES AND LAND
Degree level
Master's Degree Programme (DM270)
Educational sector code
GEO/05
Period
2nd Semester
Course year
2
Where
VENEZIA
Moodle
Go to Moodle page
The course belong to the "Environmental Control and Remediation" curriculum and aims at providing core hydrologic concepts to evaluate, manage and model superficial and subsuperficial (groundwater) water resources.
The course deals with the components of the hydrologic cycle including processes of precipitation, evaporation, transpiration, infiltration, ground-water flow, surface runoff and streamflow. Students learn about each physical hydrologic process, and then are introduced to both field and modeling methods to measure and estimate rates of each process and how the results are applied in real-world situations for the management and evaluation of water resources. Exercises include problem-solving activities, data analysis and reading summaries of scientific literature.
- Define, explain and correctly use terms and concepts used to describe basic physical hydrologic processes including evaporation, transpiration, precipitation, infiltration, ground-water flow and surface runoff;
- Explain the hydrologic cycle and the ways that humans impact and interact with it;
- Solve basic hydrologic problems to estimate the magnitude and frequency of hydrologic events;
- Use basic accepted hydrologic modeling to quantitatively measure and estimate the role of physical processes in the hydrologic cycle;
- Evaluate flood risk;
- Evaluate water resource management problems with awareness of the interdisciplinary nature of water resource management and decision-making;
- Read hydrologic research publications critically and discuss your thoughts;
- Write sound and clear exercise reports.
Calculus, including ordinary differential equations of degree one.
Basic concepts of fluid mechanics: pressure, hydrostatic pressure, energy conservation fluids (Bernoulli's equation).
- Introduction. Hydrologic cycle. Hydrologic processes.
- Probability and statistics in hydrology. Return Period. Frequency analysis, risk.
- Precipitation: Types, variability, characterization. Evaporation. Infiltration.
- Surface hydrology: runoff and streamflow. Rainfall excess. Hydrologic response.
- Surface hydrology: Reservoir and streamflow routing.
- Subsurface hydrology: saturated flow in aquifers
- Floods controls and management.
- Environmental flow.

Exercise Sessions (in MatLab + Q-gis):
- Compute intensity-duration-frequency curve.
- Hydrologic model.
- River network extraction through digital terrain model analysis.
Course material provided through the moodle online learning platform
Oral exam and reports of the exercise sessions.
- Front lectures.
- Exercise sessions in class.
Italian
oral
Definitive programme.
Last update of the programme: 08/02/2021