Hydrology module
The module introduces the concepts of the hydrological cycle and of the transformation of inflows and flows in order to allow learners to be able to evaluate the response to meteorological events for different territories and land uses. The data analysis for the estimation of the probability of occurrence of rain events focuses on the extremes, ie flood events and drought phenomena.
Hydraulic Construction Module
The course aims to provide the elements necessary for the design and the management of fundamental elements in the hydraulic construction sector, with particular attention to the typically engineering-design aspects.
General description of physical phenomenon that influence the hydrology and the statistical methodology applied to hydrological analysis. The principal concept of the hydrological cycle.
Model applied to analysis the rainfall data. Description of methods applied in the analysis of extreme and short events of rainfall. Model to define the pluviometry possibility curves. Identification of Istantaneous Unit Hydrograh, estimation of flood duration curve. Main steps in the management of water resources.
Hydraulic Construction Module:
no prerequisities are requested fot hte hydrology module
no prerequisities are requested fot hte hydraulic construction module
lesson in the classroom
test using Wooclap
partial relation requested
exercises in the classroom
The course introduces the principal notions on hydrology and the statistical methodology applied to hydrological analysis. The principal concepts relevant to the hydrological cycle.
Description of the principal topographic and geomorphological characteristic used in the hydrological studies.
Models applied to analysis the rainfall data. Description of the principal methods applied in the analysis of extreme and short rainfall events.
The more utilized models to define the Pluviometric Possibility Curves. Identification of the Istantaneous Unit Hydrograh; estimate of Flood Duration Curve.
The main steps in the management of water resources.
Essential contents: Free surface currents: steady and uniform currents; the possible currents states; localized phenomena. Capture and derivation elements: typology, structural elements, project flow rates. The examined elements will be mountain sockets, sleepers, degravelers and derivative channels, free surface derivation, complementary and control works. Accumulation works: reservoirs and dams. Structural and geotechnical characteristics will be examined with hints relating to gravity and arch dams. In relation to these, the design elements of the profile of the overflowing dams and of the devices for the dissipation of energy will be examined. Accessory components: functionality and design of the intake, bottom and surface drainage works. Constituent elements of hydroelectric plants.
Bras RL, Hydrology, Addison-Wesley, 1990 Chow VT, Maidment DR & Mays, LW, Applied Hydrology, McGraw-Hill, 1988 Dingman SL, Physical Hydrology, Prentice Hall, 2002 Eagleson PS, Dynamic Hydrology, EGU, 2003 Maidment DR (ed.), Handbook of Hydrology, McGraw-Hill, 1992
Ricevimento: The students can send a mail to myself to fix the appointment as soon as possible
Ricevimento: The students can send a mail to myself to fix an appointment as soon as possible
ANGELA CELESTE TARAMASSO (President)
MARTINA LAGASIO
GIORGIO ROTH
LUCA FERRARIS (President Substitute)
https://corsi.unige.it/10800/p/studenti-orario
delivery of the reports requested during the lessons
presentation of a theme of your choice
oral examination
oral exam during which the candidate's learning, synthesis and presentation skills will be verified
