ADVANCED HYDRAULICS

Degree course: 
Academic year when starting the degree: 
2021/2022
Year: 
1
Academic year in which the course will be held: 
2021/2022
Course type: 
Compulsory subjects, characteristic of the class
Seat of the course: 
Varese - Università degli Studi dell'Insubria
Language: 
Italian
Credits: 
6
Period: 
First Semester
Standard lectures hours: 
54
Detail of lecture’s hours: 
Lesson (36 hours), Exercise (18 hours)
Requirements: 

Preparatory subjects: Basics of Mathematical Analysis, Physics, and Hydraulics are required.

Final Examination: 
Orale

In order to assess effective learning, the exam is composed of an oral discussion of about 45 min, focusing on the technical reports compiled by the student.
These reports concern:
- Exercises provided by the professor (reporting a summary of the computation technique and of the obtained result, in graphical and/or tabular form)
- Insights concerning specific topics related to the course, but not adequately developed in the classroom, proposed by the professor or by the students (the professor usually suggests one or two bibliographic references)

To compile the technical reports, teamwork is warmly recommended: groups of 3-5 students are usually formed at the starting of the course. The complete set currently amounts to 10 technical reports, with specific subjects and supporting information available on the e-learning platform.

The final rating is in thirtieths (min 18, max 30).

Assessment: 
Voto Finale

AIM OF THE COURSE
This course aims to integrating knowledge in hydraulics with special reference to:
1. Basic principles of hydrodynamics and related equations
2. Basic principles of energy exchange between flow and hydraulic devices (pumps and turbines), including cavitation assessment
3. Open channel steady flows.
Within the Course of Study in “Environmental and Work-Safety Engineering”, the course is included in the cultural area “advances of engineering related to environmental subjects”.

LEARNING OUTCOMES
At the end of the course, the student will be able to:
1. Calculate hydrodynamic forces
2. Calculate energy production in simplified hydropower schemes and perform cavitation assessments
3. Calculate water surface profiles in steady open channel flows
4. Implement spreadsheets to analyze the proposed problems, with special emphasis on the sensitivity of the solution to the variation of selected parameters
5. Compile short technical reports concerning the proposed problems, including main results in tabular and/or graphical form.

The course is subdivided into three main blocks, HYDRODYNAMICS, ENERGY EXCHANGE BETWEEN FLOW AND HYDRAULIC DEVICES (PUMPS & TURBINES), and STEADY OPEN CHANNEL FLOWS, respectively. Related contents are detailed in the following. The hours of classroom activity concerning the specific subjects are reported in brackets. The overall number of hours is 54 (36 hours lesson, and 18 hours exercise).

First module of the course – HYDRODYNAMICS [18]:
- Stress tensor [4],
- Viscosity, Newtonian and non-Newtonian fluids [2],
- Equations of dynamic equilibrium in differential form, Euler equations, Navier-Stokes equations, dynamic effects of turbulence and Reynolds equations (essentials) [4],
- Equations of dynamic equilibrium in integral form, computation of hydrodynamic forces [8].

Second module of the course – ENERGY EXCHANGE BETWEEN FLOW AND HYDRAULIC DEVICES (PUMPS & TURBINES) [16]:
- Hydropower and hydraulic turbines, energy generation of a hydropower scheme (essentials) [8],
- Cavitation assessment in centrifugal pumps and reaction turbines [8].

Third module of the course – STEADY OPEN CHANNEL FLOWS [20]:
- Uniform flow for general cross-section and roughness distribution [2],
- Specific head, critical depth, sub-critical and super-critical flow, Froude number [2],
- Hydraulic jump and stilling basins [4],
- Weirs and flow gauging (essentials) [2],
- Computation of gradually varied steady flows, also with internal boundary conditions due to locally rapidly varied flow [10].

Exercises supplied by the professor on e-learning platform

Suggested books
- M Mossa, AF Petrillo. Idraulica. CEA (alternatively: D Citrini, G Noseda. Idraulica. Ambrosiana Milano)

Convenzionale

Classroom lectures and exercises. Standard exercises supplied by the professor. Solution of some problems by using spreadsheets.
Classroom lessons are provided by the professor.

For any further information, please contact:
paolo.espa@uninsubria.it

Professors