RIVER BASIN MANAGEMENT
Learning outcomes of the course unit
Knowledge and understanding:
At the end of the course the student will complete the knowledge concerning river basin management both in mountain and plain streams.
Applying knowledge and understanding:
The Student will be able to estimate the main characteristics of flood events, to identify the most appropriate hydraulic structures and to design them.
The student will be able to apply flood propagation models and hydrological models.
The student should be able to evaluate, with critical mind, projects developed by Hydraulics Engineers on the contents of the course.
The Student will be able to describe and to present, in a clear and convincing way, the results of numerical modeling and data elaboration by means of drawings, tables and texts.
It is useful to have familiarity with MS Office.
It is useful to have familiarity with CAD.
Course contents summary
Flood routing: Hydrologic unsteady flow models: theory, parameter calibration and application of Muskingum method. Hydraulic unsteady flow models: De Saint Venant hypotheses and equations; initial and boundary conditions for sub- and supercritical flows; methods of solution: characteristics, finite difference (explicit and implicit), Courant-Fredrichs-Levy stability criterion.
Fish passes. Types of fish passes, design and dimensions.
Sediment transport. Sediment grain size and properties. Threshold of sediment motion: Shield’s diagram. Bed load estimation formulas. 1D models: Exxner equation; morphological models for flood routing and sediment transport; Debris flows;
Flood control. Structural measures: land reforestation, river embankments, stream corrections, canal spillways, diversions, reservoirs, flood control reservoirs. Non-structural measures: flood hazard maps.
GIS-based distributed and semi-distributed rainfall-runoff hydrological models
Flood routing models
Land protection regulations
River Basin master plans
Local scouring around bridge piers and abutements
Rivers settlement: longitudinal and transversal hydraulic structures
Design and testing of earthen levees
Slides presented during lessons, class notes, text and data to develop the exercises (Available at lea.unipr.it)
Maione U., “Le piene fluviali”, La Goliardica Pavese, 1995 (Available in Library).
Moisello U., “Idrologia Tecnica”, La Goliardica Pavese, 1998 (Available in Library).
Da Deppo L., Datei C. e Salandin P., “Sistemazione dei corsi d’acqua”, Libreria Cortina, Padova, 2004 (Available in Library).
The course is made of class lessons, through slides, and training in informatics lab.
During the course several seminars regarding case studies will be organized. The Professor will help students during the preparation of the final report.
Assessment methods and criteria
The Student has to develop a project during class and has to complete it in autonomy. The Student must write a final report and provide CAD drawings.
Once the Professor has validated the report, the Student is allowed to do the oral examination.
The evaluation criteria of the examination are: 25% written report (proper analysis of the experimental data, clarity in presenting the results); 75% oral exam (theory questions, application of theory also to original problems and speaking ability).
The course is mandatory for laurea magistrale in Ingegneria per l’Ambiente e il Territorio and it is optionally for laurea magistrale in Ingegneria Civile.