( english version )
Hydrology ( 9 CFU )
Prof. Paolo Mignosa
     Tel. 0521.905925 - Fax. 0521.905924           E-mail. paolo.mignosa@unipr.it

The main part of the course deals with the methodologies of flood estimation for the design of hydraulic structures and protection plans. The course topics are essentials prerequisites for the following courses of Hydraulic protection and River basin management.
The last part of the course concerns steady flows in prismatic and natural rivers, sudden transitions and steady flows with increasing or decreasing discharge.

Hydrological processes. River basin main characteristics: Horton-Strahler laws, hypsographic curve, hillside slope, shape factors. Rainfall measurements: non-recording and recording rain-gauges; rainfall information collected in the Italian hydrologic annals (part I); Italian rainfall regimes; areal rainfall estimation: isohyetal maps, Thiessen polygons, grid methods. Statistical elaborations of short duration rainfalls: point and spatial depth-duration-frequency curves; areal-reduction factors. Excess rainfall estimation. Measurements of water stages and velocities in rivers: level-gauges, current meters; discharge derivation; stage-discharge relationships; stage and discharge information collected in the Italian hydrologic annals (part II); discharge-duration curves; Characteristics of Italian rainfall regimes; hydrologic cycle: control volume, processes, equations. Time-scales of main hydrological phenomena and return periods for design purposes;

Hydrologic statistic. Probabilistic treatment of hydrologic data; statistical parameters; probability distributions and their application in hydrology. Method of moments for parameters estimation. Plotting of experimental data on probability charts.

Floods. Origins and causes of floods in natural rivers; flood hydrograph analysis, base flow separation; rainfall-runoff mathematical description. Linear models: hypotheses and limits, convolution integral, IUH theory; IUH of more than one linear model in series and/or in parallel. Conceptual models: hypotheses and equations; IUH for the linear reservoir model, Nash model, time-area method; parameter calibration of linear models.

Peak discharge estimation. Direct methods and regional analysis; indirect methods based on rainfall-runoff models, critical rainfall duration; empirical formulas and order of magnitude for the main Italian rivers.

Steady gradually varied flows with constant discharge. Uniform flow concepts: normal depth (also in compound channels with variable roughness), critical depth, total energy, specific force. Classification, analysis and computation of flow profiles in prismatic channels and natural rivers.

Sudden transitions. Hydraulic jump, contractions and expansions, flow through bridges and constrictions. Channel junctions.

Steady gradually varied flows with increasing or decreasing discharge. Governing equations, lateral inflow and outflow.

Modalità d'esame
Oral examination on the arguments developed in the lectures and in the laboratory activities.

Analisi matematica I e II, Geometria, Fisica I, Idraulica.

Testi consigliati
Maione U.: “Le piene fluviali”, La Goliardica Pavese, 1995.
Citrini D. e G. Noseda , “Idraulica”, Ed. Ambrosiana, Milano, 1992.
Notes supplied by the teacher on the topics developed during the laboratory activities.

Testi d'approfondimento
Maione U., Moisello U.: “Elementi di statistica per l’Idrologia”, La Goliardica Pavese, 1993.
Moisello U.: “Idrologia Tecnica”, La Goliardica Pavese, 1998.
Chow V.T., Maidment D.R., Mays L.W.: “Applied Hydrology”, McGraw-Hill Book Company, 1988.
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