RENEWABLE ENERGY PRODUCTION

RENEWABLE ENERGY PRODUCTION

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iten
Code
98247
ACADEMIC YEAR
2019/2020
CREDITS
5 credits during the 1st year of 10720 ENVIRONMENTAL ENGINEERING (LM-35) GENOVA

5 credits during the 2nd year of 10376 CHEMICAL AND PROCESSES ENGINEERING (LM-22) GENOVA

SCIENTIFIC DISCIPLINARY SECTOR
ING-IND/24
TEACHING LOCATION
GENOVA (ENVIRONMENTAL ENGINEERING )
semester
1° Semester
modules
This unit is a module of:
Teaching materials

AIMS AND CONTENT

AIMS AND LEARNING OUTCOMES

Participation in the proposed training activities (lectures, exercises, seminars, workshops, educational visits), individual study and group discussion will allow the student to:

- Orient himself in the current panorama of possible processes of energy production from renewable sources;

- know the main types of fuel cells, their potential and the margins of optimization of current technologies;

- know the market context and prospects of solar energy, to know how to evaluate the production potential, as well as the fundamentals of photovoltaic conversion.

- Know the main types of wind turbines in relation to the windiness of the site, assessing the technological and structural features as well as the energy production, and analyze the effectiveness of the installation through the definition of the power curve and the overall production;

- Know how to produce energy from surface water, the main components of hydroelectric plants, the potential for residual exploitation, the opportunities of small plants (mini-hydroelectric) and develop the ability to analyze the potential of a plant based on the hydrological and hydraulic characteristics of a site (flow duration curve, hydraulic jump, etc.) for design purposes.

- Know renewable energy sources related to marine environment such as currents, waves, tides and temperature gradients. To develop the knowledge to carry out assessments of resource availability and usability and for the preliminary design of individual or combined offshore exploitation plants.

- Know the different types of biomass, the actual potential for use and the thermochemical reactors for its energy exploitation;

- Apply the acquired skills to specific contexts of environmental engineering, discussing the advantages and disadvantages of the applicable solutions.

Teaching methods

The module provides frontal lessons in the classroom, which is recommended to attend.

The multidisciplinary nature of the teaching module and the fact that it deals with different speakers encourage dynamic learning that also promotes the acquisition of transversal skills in terms of communication skills, management and integration of skills.

SYLLABUS/CONTENT

The program of the module includes the presentation of the following topics by experienced teachers in the field:

1. Introduction (prof.ssa Bosio, 1 hour)

Course didactic structure, examination modalities, contextualization of contents.

2. Fuel cells (prof.ssa Bosio, 7 hours)

Operating principles, types, applications, theoretical models and experimental data.

3. Solar energy (prof. Fossa, 5 hours)

Markets and prospects, solar angles, estimation of solar energy on the ground. Solar collectors and hints at concentration systems. Conversion yields. Fundamentals of photovoltaic conversion, cells and modules, characteristic curves, yields, inverters and manufacturability.

4. Wind turbines  (prof.ssa Pagnini, 10 hours)

Wind turbine typologies, technology, optimal production, estimation of windiness at the site and energy production.

5. Hydroelectric (prof. Lanza, 10 hours)

Plant types, hydrological and hydraulic evaluations, potential estimation and preliminary design.

6. Marine resources (prof. Besio, 10 hours)

Evaluation and exploitation of the resource. Preliminary design of single or combined offshore plants.

7. Biomass (prof.ssa Arato, 7 hours)

Biomass characterization; combustion, pyrolysis and gasification reactions; types and characteristics of thermochemical reactors.

RECOMMENDED READING/BIBLIOGRAPHY

The teaching material used during the classes will be available in the Aulaweb of the teaching. The notes taken during the lessons and the material in the Aulaweb are sufficient for the preparation of the exam, but the following books are suggested as support and in-depth texts:

- “Fuel Cells Handbook (Seventh Edition)by EG&G Technical Services, DE-AM26-99FT40575, U.S. Department of Energy, National Energy Technology Laboratory, Morgantown, West Virginia, 2004.

-  “Guidelines for Design of Wind Turbines”. Det Norske Veritas, Copenhagen and Wind Energy Department, Risø National Laboratory, 2002.

- “Le energie rinnovabili”, Andrea Bartolazzi. Hoepli, Milano, 2010.

- “Fundamentals of Ocean Renewable Energy”, Simon Neill & Reza Hashemi, Elsevier, pp. 336-

- “Offshore Energy and Marine Spatial Planning”, Katherine L. Yates & Corey J. A. Bradshaw, CRC Press, pp. 300

TEACHERS AND EXAM BOARD

Ricevimento: Prof.Arato receives students agreeing appointment via e-mail

Ricevimento: The professor is available by appointment agreed by email.

Ricevimento: Prior phone or e-mail appointment

Ricevimento: The office hours for students are Tuesday afternoon, starting at 14:30, upon confirmation. This will not be available in the week when the exams dates are established. For confirmation of the appointment, please follows the indications provided on AulaWeb.

Ricevimento: By appointment or by prior telephone contact

Ricevimento: The teacher is available on demand, weekly, through email request

Exam Board

ELISABETTA ARATO (President)

BARBARA BOSIO (President)

GUIDO BUSCA (President)

LUISA PAGNINI

LUCA GIOVANNI LANZA

GABRIELLA GARBARINO

GIOVANNI BESIO

LESSONS

Teaching methods

The module provides frontal lessons in the classroom, which is recommended to attend.

The multidisciplinary nature of the teaching module and the fact that it deals with different speakers encourage dynamic learning that also promotes the acquisition of transversal skills in terms of communication skills, management and integration of skills.

LESSONS START

26 september 2019

EXAMS

Exam description

The final test of the module consists of a written report and a subsequent oral interview.

The grade achieved in the teaching will be the average of the marks awarded in the two modules in which the teaching is divided.

There are 3 exam dates for the 'summer' session (June, July, September) and 2 exam dates for the 'winter' session (January and February). No extraordinary dates are granted outside the periods indicated by the Scuola Politecnica, with the exception of students who have not included educational activities in the curriculum during the current academic year.

Assessment methods

The written report must have as its object the deepening of one of the themes presented in the class, at the choice of the student. The report must be sent by e-mail to the teacher of reference for the chosen subject, in pdf format (file saved as a surname_name_renewable.pdf), in its final version and at least one week before the date of the interview.

The oral examination includes the discussion of the written report submitted and a couple of questions that may relate to the entire program presented in class.

The examination aims to ascertain the ability to analyse, the specific skills acquired and the ability to use them to orient oneself in real application cases.

Exam schedule

Date Time Location Type Notes
09/06/2020 09:00 GENOVA Orale The session of 25th of February will be at 2:00 p.m.
14/07/2020 09:00 GENOVA Orale The session of 25th of February will be at 2:00 p.m.
15/09/2020 09:00 GENOVA Orale The session of 25th of February will be at 2:00 p.m.

FURTHER INFORMATION

Basic knowledge of mathematics, chemistry and physics is required for successful learning, but no formal prerequisites are required.