|Politecnico di Torino|
|Academic Year 2016/17|
Industrial use of energy
Master of science-level of the Bologna process in Energy And Nuclear Engineering - Torino
The purpose of this course is to provide the main concepts concerning the efficient use and production of energy in the industrial sector. In the first part of the course the actual energy-sector regulations are discussed and the incentives for energy savings and for the renewable energy production are presented.
In the second part, the theme of industrial energy audits is discussed, showing how to discover energy loss areas, how to improve production processes upgrading or replacing equipment and also showing how to determine the cost, return on investment and payback period for different kinds of projects.
Finally industrial applications of cogeneration and trigeneration are studied and assessed in comparison with more traditional systems of electrical end thermal energy production.
Expected learning outcomes
The course provides the students with the ability to carry out analysis of the stream of different energies which are transformed inside any industrial process. Moreover he will learn how to perform technical and economical evaluations of cogeneration plants, energysaving investments and feasibility studies and financing.
Prerequisites / Assumed knowledge
Preliminary knowledge acquired in the courses of Hydraulic, Thermal Machines Fundamentals, Thermodynamics and Thermo-kinetics.
- Energy transformations in industries
- Energy Management Systems, Energy Audit, Energy Service Companies.
- Energy-saving case studies
- Excursus of industrial energy consumptions for the different sectors
Monitoring, operation and maintenance of energy transformation plants
- Energy measurement units.
- Main measurement techniques and instruments
- Monitoring systems
- Testing methods and Plants maintenance
- Electric and natural gas sectors: operators and market architecture.
- Electric energy tariffs (main components, taxes, etc.)
- Natural gas tariffs
- Incentives for energy-saving investments and for renewable sources plants
Increasing the efficiency in industrial plants and systems
- Electrical substations
- Electric motors and power electronic devices
- Pumps and fans
- Air compressors and compressed air systems
- Boilers plants
- Heat exchange and recovery
- Thermal pipeline losses and insulation
- Absorption and compression chillers
- Heat pumps
Cogeneration and trigeneration plants in industry
- Main feasibility criteria for cogeneration
- Steam turbine cogeneration plants
- Gas turbine plants
- Internal combustion engine plants
- High efficiency cogeneration, primary energy saving
- Practical examples
The classes consist in solving exercises and practical problems by applying the concepts covered in the lessons. The aim of the work is to give the students the instruments to perform technical and economical evaluations of cogeneration plants and energy-saving investments.
Texts, readings, handouts and other learning resources
The lectures slides, text of exercises as well as other materials regarding the class lessons will be available on the course website.
Some of the reference textbooks for improving the study can be summarized as follows:
Andreini P., Pierini F., La conduzione dei generatori di vapore, Milano, Hoepli, 2000
Anglesio P., Elementi di impianti termotecnici, Bologna, Pitagora, 1997
Chiesa G., Dall'O' G., Gestione delle risorse energetiche del territorio, Milano, Masson, 1997
Cornetti G., Macchine Termiche, Torino, Il capitello, 2003
Gas turbine world Handbook 2004, Pequot Publishing, 2004
Lozza G., Turbine a gas e cicli combinati, Milano, Progetto Leonardo - Esculapio, 1997
Stultz S.C., Kitto J.B. (a cura di), Steam 40th. Its generation and use, Babcock & Wilcox, 1992
Wegner R., Raimondi G., Il servizio di produzione calore ed energia, Milano, Franco Angeli, 1987
Autorità per l’energia elettrica e il gas, www.autorita.energia.it
Gestore della Rete di Trasmissione Nazionale, www.grtn.it
Gestore del Mercato Elettrico, www.mercatoelettrico.org
Federazione Italiana per l’Uso Razionale dell’Energia, www.fire-italia.it.
Assessment and grading criteria
The exam consists of a written test both on practical problems and theory. The test duration is approximately 2 hours (1 hour for the theory part and 1 hour for the practical problem).
During the course, students will carry out a project to deepen some of the aspects presented during the lessons and classes. This project will be assessed representing the 20% of the final mark.
Programma definitivo per l'A.A.2016/17