WATERSHED HYDRAULIC PROTECTION
Academic Year 2018/2019 - 2° YearCredit Value: 9
Taught classes: 42 hours
Exercise: 45 hours
Term / Semester: 1°
Learning Objectives
Basic aim of the course is to provide fundamentals, tools and methods for the hydraulic protection of urban and non-urban watersheds. The course consists of active lectures and exercises.
Course Structure
The course will be developed based on actve lectures and exercises. Intermediate tests will be provided in order to evaluate the knowledge level of the students during the course development..
Detailed Course Content
CHARACTERISTICS OF WATERSHEDS AND STREAMS
Geometrical representation of watersheds. Strecher diagram. Hypsographic curve. Hydrodynamic diagram. Stream representation fundamentals. Planimetries, longitudinal profiles, cross-sections. Level-flow relationship, Chronological curve, Duration curve. Utilization curve.
HYDRAULICS
Uniform flow. Composite roughness. Channels of compound section. Gradually varied flow. Hydraulic jump and stilling basins. Energy dissipation structures, steps. Free flow over a step. Sediment transport. Erosion down to steps. Backwater determined by bridge piers. Channel bed erosion due to piers.
HYDRAULIC PROTECTION OF NATURAL WATERSHEDS
Flood risk evaluation and mitigation measures. Piano di Assetto Idrogeologico. Slope erosion. Universal Soil Loss Equation. Equilibrium slope. Compensation slope. Design Slope. Upstream catchment structures. Check dams. Design of check dams. Open check dams. Weirs. Riverbank protection. Torrent groynes. Steep channels. Downstream catchment structures. Embankments. Embankments design. Filtration process. Evangelisti’s method. Pavlosky’s method. Siphoning. Embankment protection. Spill and diversion structures. River groynes. Dams.
HYDRAULIC PROTECTION OF URBAN WATERSHEDS
Urban drainage systems. Flooding and overflow discharge problems. Combined systems and separate systems. Design of wastewater sewers. Design methods for stormwater drainage systems. Peak flow discharge evaluation. Pipes and channel design. Siphons. Overflow structures. Receiving water bodies. Stormwater storage basins. Best management practices.
Textbook Information
AA.VV., (1997). Sistemi di fognatura. Manuale di progettazione. CSDU, Hoepli Ed., Milano.
Armanini, A. (1999). Principi di Idraulica Fluviale. Ed. BIOS, Cosenza
Benini, G. (1978). Sistemazioni idraulico-forestali. Ed. CLEUP, Padova
Da Deppo, L., Datei, C., Salandin P. (1995). Sistemazione dei corsi d’acqua. Ed. Liberia Cortina, Padova
Slides delle lezioni in formato cartaceo verranno fornite tramite il portale "Studium"