Course detail
Automotive Technology
FSI-JDT-A Acad. year: 2025/2026 Winter semester
This course makes students familiar with the theory of automotive technology, internal combustion engines, thermodynamics, fluid mechanics, combustion, heat transfer, stress analysis, materials science, electronics and computing.
Language of instruction
English
Number of ECTS credits
5
Supervisor
Department
Entry knowledge
Matrix calculus, differential and integral calculus, differential equations. Technical mechanics, kinematics, dynamics, elasticity and strength. Technical thermodynamics.
Rules for evaluation and completion of the course
Requirements for Course-unit credit award: The orientation within problems discussed and the ability of solving them, examined by working-out assigned tasks without significant mistakes. Continuous study checking is carried out together with given tasks verification. Examination: The exam verifies and evaluates the knowledge of physical fundamentals of presented problems, theirs mathematical description on a presented level and application to solved tasks. The exam consists of a written part (test) and an oral part. Final evaluation consists of: 1. Evaluation of the work on seminars (elaborated tasks). 2. Result of the writing part of the exam (test). 3. Result of the oral part of the exam.
Attendance in seminars is obligatory, checked by a teacher. The way compensation missed lessons is solved individually with a course provider.
Aims
The aim of this course is to offer students the general knowledge necessary for successful theoretical and experimental also practical engineering practise in the area of automotive technology.
Student acquires the knowledge of design and operation of road vehicles and combustion engines.
The study programmes with the given course
Programme N-ADI-P: Automotive and Material Handling Engineering, Master's, elective
Type of course unit
Lecture
26 hours, optionally
Syllabus
1. Influences in motor vehicles. Motor-vehicle dynamics.
2. Dynamics of lateral motion.
3. Internal combustion engines. Reciprocating piston engines with internal combustion.
4. Supercharging processes. Power transfer in reciprocating piston engines.
5. Main components of reciprocating-piston engines.
6. Engine cooling. Fuel filters. Air supply. Superchargers. Exhaust systems.
7. Engine management for spark-ignition engines. Mixture formation. Fuel injection.
8. Exhaust emissions from spark-ignition engines.
9. Diesel engine management. Fuel injection pumps. Common rail system.
10. Exhaust emissions from diesel engines. Mixture formation. Combustion. Starting systems.
11. Drivetrain.
12. Chassis systems.
13. Braking systems.
Exercise
13 hours, compulsory
Syllabus
1. Motor-vehicle dynamics, dynamics of lateral motion.
2. – 3. Internal combustion engines. Reciprocating piston engines with internal combustion.
4. – 5. Supercharging processes. Power transfer in reciprocating piston engines.
6. – 7. Main components of reciprocating-piston engines, engine cooling. Fuel filters. Air supply. Superchargers. Exhaust systems.
8. – 9. Engine management for spark-ignition engines, mixture formation, fuel injection, exhaust emissions from spark-ignition engines.
10. – 11. Diesel-engine management. Fuel injection pumps. Common rail system. Exhaust emissions from diesel engines. Mixture formation. Combustion.
12. – 13. Drivetrain, chassis systems, braking systems.