HYDROLOGY
Academic Year 2021/2022 - 1° Year - Curriculum Ingegneria delle acqueCredit Value: 9
Taught classes: 36 hours
Exercise: 55 hours
Term / Semester: 2°
Learning Objectives
The course is an introduction to hydrology and hydrological cycle with particular emphasis on application aspects related to water and environmental engineering.
Course Structure
The course mainly is composed by:
- lectures;
- guided applications, aimed at the practical application of the concepts and methods of most commonly used analysis and modeling of hydrology and related natural hazard mitigation;
- guided tour of the DICAR green roof, to illustrate concepts of hydrological monitoring.
Detailed Course Content
1. INTRODUCTION
Course presentation. Development of hydrological science.
2. INTRODUCTION TO THE HYDROLOGICAL CYCLE
Hydrological cycle components. Precipitation. Evaporation and evapotranspiration. Runoff and
streamflows. Groundwater. Human effects on the hydrological cycle. Distribution of water resources on earth.
3. HYDROLOGICAL INFORMATION
Instruments and methods for measuring hydrological variables. Sources of information. Hydrological and Hydrographic services. Real time data collection networks. Radar and satellites. Reanalysis data.
4. WATERSHED AND DRAINAGE NETWORK CHARACTERIZATION USING GIS
Watershed delineation. Geomorphologic characterization of watersheds. Streamflow network
characterization. Horton and Strahler’s laws.
5. INTRODUCTION TO PROBABILITY THEORY AND STATISTICS
Statistical description of data. Probability definitions. Probability function. Properties of probability
functions. Random variables, cumulative distribution function (cdf) and probability density function (pdf). Discrete parametric cdf. Continuous parametric cdf. Return period and risk. Distribution fitting and goodness of fit assessment. Statistical tests. Regression analysis.
6. PRECIPITATION
Formation of precipitation. Precipitation types. Distribution of precipitation. Estimation of areal precipitation. Extreme precipitation frequency analysis. Intensity duration frequency curves. Regional analysis of extreme precipitation.
7. RUNOFF AND STREAMFLOWS
Streamflow regimes. Streamflow measurements. Flow duration curves. Formation of runoff and
streamflows. Infiltration. Hydrograph components.
8. FLOOD HYDROGRAPH ANALYSIS
Hydrograph separation. Time of concentration estimation. Peak discharge estimation. Regional methods for peak discharge estimation. Design hyetographs. Rainfall-runoff models. Rational method. Unit hydrograph. Instantaneous Unit Hydrograph. Conceptual models (time-area, linear reservoir, Nash, Clark). SCS Unit Hydrograph. GIUH. HEC-HMS software.
9. HYDROLOGICAL ASPECTS OF RESERVOIR ANALYSIS
Types of reservoirs. Design criteria. Simulation of reservoirs. Flood control.
10. SHORT INTRODUCTION TO OTHER HYDROLOGICAL NATURAL HAZARDS AND CLIMATE CHANGE
Drought, aridity and desertification. Landslides and their hydrological modeling, landslide early warning thresholds. Climate change modeling and adaptation strategies.
Textbook Information
1. DINGMAN, S.L. Physical hydrology, Prentice-Hall, 2002.
2. MAIDMENT, D. (ed.), Handbook of hydrology, McGraw-Hill, New York, 1993.
3. BRAS R., Hydrology: an introduction to hydrologic science, Addison-Wesley Publ. Company,
Reading Ma, 1990.
4. FERRO, V. La sistemazione dei bacini idrografici, McGraw-Hill Education, 2013.
Handouts and other material will be distributed in class and made available through Teams and website.