5.00 credits
30.0 h + 30.0 h
Q2
Teacher(s)
Contino Francesco; Jeanmart Hervé;
Language
English
Prerequisites
Students are expected to master the following skills:
- be able to characterize a thermal cycle;
- be able to calculate heat exchanges in simple cases;
- be able to characterize fluid flows in pipe; as they are covered within the courses LMECA1855 and LEMCA2321.
- be able to characterize a thermal cycle;
- be able to calculate heat exchanges in simple cases;
- be able to characterize fluid flows in pipe; as they are covered within the courses LMECA1855 and LEMCA2321.
Main themes
Components analysis, thermodynamics and general mechanics, energetic study, basic gauging, calculation of performances and diagnostic principles. Use of fuels and analysis of their combustion in engines: physicochemical, technological, energetic and environmental aspects
Learning outcomes
At the end of this learning unit, the student is able to : | |
1 |
In consideration of the reference table AA of the program "Masters degree in Mechanical Engineering", this course contributes to the development, to the acquisition and to the evaluation of the following experiences of learning:
|
Content
The course is composed of two parts:
1. Components analysis, thermodynamics and general mechanics:
- main kinematics chain and functional auxiliaries
- thermodynamics cycles, parietal effects, energy fluxes
- breathing: operation modes, suction and supercharging
- frictions, general architecture, main dimensions.
2. Use of fuels:
- combustibility properties and studies of combustion modes
- study of abnormalities and optimisation of combustion laws
- supercharging technology and control of polluting emissions.
The first part of the presentation gives the necessary bases for the calculations carried out during tutorials under the form of exercises or case studies.
The tutorials integrate in parallel the technological aspects of the second part of the course.
1. Components analysis, thermodynamics and general mechanics:
- main kinematics chain and functional auxiliaries
- thermodynamics cycles, parietal effects, energy fluxes
- breathing: operation modes, suction and supercharging
- frictions, general architecture, main dimensions.
2. Use of fuels:
- combustibility properties and studies of combustion modes
- study of abnormalities and optimisation of combustion laws
- supercharging technology and control of polluting emissions.
The first part of the presentation gives the necessary bases for the calculations carried out during tutorials under the form of exercises or case studies.
The tutorials integrate in parallel the technological aspects of the second part of the course.
Teaching methods
Teaching is based on lectures, exercises and assignments.
Evaluation methods
The evaluation is based on :
- an oral examination on the theoretical knowledge acquired with the course supervisors
- a written examination on a practical implementation of the course's achievements
The weighting of each part is announced to the students at the beginning of the academic year. The default weighting is 70% / 30%.
Special circumstances may lead to a change in the nature of the examination. For example, the oral examination may become written, the exercise examination may be cancelled, etc. Students will be notified in due course.
- an oral examination on the theoretical knowledge acquired with the course supervisors
- a written examination on a practical implementation of the course's achievements
The weighting of each part is announced to the students at the beginning of the academic year. The default weighting is 70% / 30%.
Special circumstances may lead to a change in the nature of the examination. For example, the oral examination may become written, the exercise examination may be cancelled, etc. Students will be notified in due course.
Other information
textbook available at the SICI (French version only).
Online resources
Bibliography
Reference books for this course:
. R. van Basshuysen, F. Schäfer, Internal Combustion Engine Handbook. Basics, Compontents, Systems, and Perspectives, SAE International, 2002.
. C. R. Ferguson, Internal Combustion Engines. Applied Thermosciences, John Wiley & Sons, 1986.
. J. B. Heywood, Internal Combustion Engine Fundamentals, McGraw-Hill Book Company, 1988.
. R. Stone, Introduction to International Combustion Engines, 4th Edition, Palgrave Macmillan, 2012.
. R. van Basshuysen, F. Schäfer, Internal Combustion Engine Handbook. Basics, Compontents, Systems, and Perspectives, SAE International, 2002.
. C. R. Ferguson, Internal Combustion Engines. Applied Thermosciences, John Wiley & Sons, 1986.
. J. B. Heywood, Internal Combustion Engine Fundamentals, McGraw-Hill Book Company, 1988.
. R. Stone, Introduction to International Combustion Engines, 4th Edition, Palgrave Macmillan, 2012.
Teaching materials
- syllabus (in French) available on the moodle site
Faculty or entity
MECA
Programmes / formations proposant cette unité d'enseignement (UE)
Title of the programme
Sigle
Credits
Prerequisites
Learning outcomes
Master [120] in Mechanical Engineering