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Information on degree programmes

DYNAMICS AND CONTROL OF ENERGY SYSTEMS

ACADEMIC YEAR2018/2019

COD. 1006061

dati insegnamento:

DEGREE: COMPUTER ENGINEERING

TYPE OF COURSE: OPTIONAL SUBJECTS

LECTURERS:

MORINI Mirko

ACADEMIC YEAR: 2018/2019

YEAR OF STUDY: 2

SEMESTER: First semester

NUMBER OF CREDITS: 6

UNIT COORDINATOR: MORINI Mirko

CONTACT HOURS: 48

INDIVIDUAL WORK HOURS: 102

Learning outcomes of the course unit

The student will acquire
(i) basic knowledge for the study of the dynamic behavior of energy processes and machines and their control
(ii) tools for dynamic simulation of complex systems
(iii) modeling capabilities of components of systems of different nature, type and configuration. The student will be able to assess the complexity of the model and he will be able to make the appropriate simplification in order to obtain results of adequate accuracy also in relation to that of the available measures for calibration, validation and comparison.
(iv) ability to apply basic knowledge and learned methods for the study of more complex energy systems and more advanced control techniques.

Course contents summary

Introduction to automatic controls.
Introduction to mathematical models (definition, classification)
The phases of the modeling process
Elements of fluid dynamics and heat transfer
Elements of fluid machinery and power systems
The role of experimental measurements in the modeling process (model calibration, validation)
Modeling and control of a CHP system.
Systems state space representation.
The bond graph approach applied to energy systems and their components.
Modeling for diagnostic: GPA of gas turbines.

Teaching methods

Lectures

Educational material will be periodically uploaded to the Elly platform to support the lessons and to deepen their contents.

To access these contents (which are an integral part of the course) it is necessary to register for the on-line course.

Assessment methods and criteria

Oral exam consisting in the discussion of a group project and in some questions about the course content. The project is the development of a model of a fluid or thermodynamic system and its implementation in two computing environments to choose from Matlab, Scilab and OpenModelica.

Other informations

Lectures attendance is highly recommended.

Non-attending students are invited to consult the Elly platform on which the topics actually presented in class will be periodically listed.

SHARED ACTIVITY

DYNAMICS AND CONTROL OF ENERGY SYSTEMS

OTHER COURSES

YEAR: 1

APPLIED ACOUSTICS
AUTOMATION SENSORS
AUTOMATION SYSTEMS
AUTOMATION SYSTEMS (1st MODULE)
AUTOMATION SYSTEMS (2nd MODULE)
DYNAMICS AND CONTROL OF ENERGY SYSTEMS
ELECTRICAL DRIVES FOR AUTOMATION
ENGLISH LANGUAGE QUALIFYING EXAM B2
INFORMATION SYSTEMS
INTERNET OF THINGS
LINEAR MULTIVARIABLE SYSTEMS
OPERATING AND REAL-TIME SYSTEMS
OPERATIONS RESEARCH
PROGRAMMING PARADIGMS AND LANGUAGES
TECHNICAL ENGLISH

YEAR: 2

APPLIED ACOUSTICS
ARTIFICIAL INTELLIGENCE
AUTOMATION SENSORS
AUTOMATION SYSTEMS
AUTOMATION SYSTEMS
AUTOMATION SYSTEMS (1st MODULE)
AUTOMATION SYSTEMS (2nd MODULE)
COMPUTER VISION FOR VEHICLES
DISTRIBUTED SYSTEMS
DYNAMICS AND CONTROL OF ENERGY SYSTEMS
ELECTRICAL DRIVES FOR AUTOMATION
FUNDAMENTALS OF COMPUTER VISION
INTERNET OF THINGS
PROGRAMMING PARADIGMS AND LANGUAGES
QUANTITATIVE METHODS AND OPTIMIZATION

Università degli studi di Parma

via Università, 12 - I 43121 Parma

P.IVA 00308780345

tel. +390521902111

email: protocollo@pec.unipr.it

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DYNAMICS AND CONTROL OF ENERGY SYSTEMS

Learning outcomes of the course unit

Course contents summary

Recommended readings

Teaching methods

Assessment methods and criteria

Other informations

SHARED ACTIVITY

OTHER COURSES

YEAR: 1

YEAR: 2