ENVIRONMENTAL IMPACT OF ENERGY TECHNOLOGY SYSTEMS
cod. 1006133

Academic year 2024/25
1° year of course - Second semester
Professors
Academic discipline
Sistemi per l'energia e l'ambiente (ING-IND/09)
Field
"scienze della prevenzione nell'ambiente e nei luoghi di lavoro"
Type of training activity
Characterising
21 hours
of face-to-face activities
3 credits
hub: -
course unit
in ITALIAN

Integrated course unit module: ENVIRONMENT APPLIED PREVENTION SCIENCES

Learning objectives

The course deals with basic topics related to energy transformation processes and their impact on the environment. In particular, sustainability is considered with reference to several aspects: energy use, renewable energy, energy transformations, use of fossil fuels in combustion processes for heating and primary engines.
Knowledge and understanding:
At the end of the course the student will be able to know the main issues related to world energy consumption and to the most used energy sources with reference to energy generation and utilization processes taking account of renewable and/or not renewable energy sources, engine plants, final use of energy. He/she will also acquire the basics of the concept of efficiency in energy conversion processes. Therefore he/she will have a rough idea of problems, advantages and disadvantages of the different solutions used or proposed nowadays for energy generation and use.
Applying knowledge and understanding:
The student will be able to make general considerations on operating characteristics, performance and pollutant emissions of power plants used for energy generation from primary sources. He/she must also be able to compare qualitatively different solutions for the generation of energy from primary sources.
Making judgments:
The student will have the tools and knowledge necessary to carry out critical investigations on energy conversion processes and solutions for the generation and use of energy from the point of view of main environmental problems.
Communication skills:
The student must have the necessary tools to effectively present evaluations and comparisons of different solutions for specified processes for energy generation through both graphic and numerical representations concerning the characterization of energy and environmental alternatives.
Learning skills:
The student will be able, starting from the basic knowledge given in the course, to acquire by himself the information, features, data that can be useful to know the main characteristics of systems and solutions used and/or proposed for energy generation and use with reference to environmental impacts.

Prerequisites

Attendance to the course requires basic knowledge of Chemistry.

Course unit content

General aspects. The planet energy balance. Energy sustainability. World energy consumption. Fossil fuels and renewable energy sources. Technologies for the use of renewable sources. Biomass. Hydropower, solar and wind power.
Power plants: processes of energy conversion and use, specific emissions of pollutants. Combustion processes. Short description of steam plants, gas turbines and internal combustion engines. Emissions from stationary and mobile applications and techniques for their reduction.

Full programme

General aspects. The planet energy balance: natural and anthropogenic contributions. Energy sustainability: generation and use of Renewable Energy Sources. World energy consumption and primary energy sources. Fossil fuels and renewable energy sources. Technologies for the use of renewable sources. Hints to Biomasses, Hydropower, solar and wind power.
Power plants: processes of energy conversion and use, specific fuel consumption and specific emissions of pollutants. Combustion processes: introduction to reactions, fuels and formation mechanisms of pollutants. Short description of steam plants, gas turbines and internal combustion engines: emissions from stationary and mobile applications and techniques for their reduction.

Bibliography

Topics discussed during the course are reported following the same approach and the same nomenclature in the following book:
M.Bianchi, A.De Pascale, A.Gambarotta, A.Peretto – “Sistemi energetici - Impatto ambientale” - vol.3, ISBN 8869723151, Bonomo Editore, Bologna, 2024.
Suggested readings for extended studies can be found in:
R.Vismara, "Ecologia Applicata", Hoepli, 1992
Slides will be uploaded to the Elly Platform: to download them from Elly enrollment in the online course is required. For non-attending students, staying up-to-date on the course through the Elly platform is strongly suggested.

Teaching methods

Learning activities will be developed in the form of frontal lectures. Lectures will be focused on the basics for the study of conversion processes and energy use from primary energy sources. As part of the course some numerical examples will be also presented, intended to allow the student to become familiar with the unit of measurement used to assess the operational characteristics of the systems used for the generation and use of energy. The teacher is available on appointment (e-mail) for explanations (in person or through the Teams platform).

Assessment methods and criteria

The assessment of learning is carried out through the final exam only, which ensures the acquisition of knowledge and skills (i.e. acquisition of learning outcomes) through an oral interview.
It consists in the presentation of a short report that the student should prepare on a topic agreed with the teacher and in a theoretical question on the topics of the module: the critical capacity, the ability to explain and to correlate involved issues will be evaluated.
The assessment is evaluated on a scale from 0 to 30. To pass the module a score of at least 18/30 is required.
The final grade is obtained by calculating the arithmetic mean of the scores of the modules that form the course.
Online registration is MANDATORY to be admitted to the exam.

Other information

Attendance to the course lectures is highly recommended.

2030 agenda goals for sustainable development

Affordable and clean Energy.

Contacts

Toll-free number

800 904 084

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