First Cycle - Faculty of Engineering - Mechanical Engineering (English)
Y : Year of Study S : Semester
Course Unit Code Course Unit Title Type of Course Y S ECTS
ME484 Internal Combustion Engines II Compulsory 4 7 5
Objectives of the Course
The objective of the course Combustion Science is to give a solid academic as well as practical introduction to the field of combustion and to provide the student with a basic knowledge of the processes that are important in regard to internal combustion engine.
Name of Lecturer(s)
Assoc. Prof. Dr. MUSTAFA YILMAZ
Prof. Dr. MEHMET ZAFER GÜL
Learning Outcomes
1 analyse combustion processes
2 incorporate the effect of combustion cycles
3 apply thermodynamic property changes of real gases and their mixtures to thermodynamic systems
4 perform thermodynamic analysis of internal combustion engine cycles
5 By the end of the course the student should be able to perform thermodynamic analysis of internal combustion engine cycles
Mode of Delivery
Formal Education
Recommended Optional Programme Components
None
Course Contents
Introduction of internal combustion engine, vehicles with alternatives fuel, vehicles with natural gas and LPG and engine construction, emission characteristics, thermal efficiency, fuel economy, Using of alcohols in engines. Using alcohol fuel in spark ignition and diesel engine, introduction of engine and auxiliary elements. Thermodynamic cycle analysis of gas exchange, compression, expansion and combustion processes with dissociation. Mechanism of combustion. Fuel and additive characteristics. Real cycles. Performance characteristics.
Weekly Detailed Course Contents
Week Theoretical Practice Laboratory
1 Introduction of internal combustion engine
2 vehicles with alternatives fuel
3 vehicles with natural gas and LPG and engine construction
4 emission characteristics, thermal efficiency
5 fuel economy
6 Using alcohol fuel in spark ignition and diesel engine
7 introduction of engine and auxiliary elements
8 Study Week
9 Midterm
10 Thermodynamic cycle analysis of gas exchange
11 compression expansion and combustion processes with dissociation
12 expansion and combustion processes with dissociation
13 Mechanism of combustion
14 Fuel and additive characteristics.
15 Fuel and additive characteristics.
16 Real cycles. Performance characteristics.
17 Final Week
Recommended or Required Reading
Internal Combustion Engine, Pulkrabek.
Planned Learning Activities and Teaching Methods
14 week active courses.
Assessment
AssessmentQuantityWeight
Language of Instruction
Language Codes
Work Placement(s)
None
Workload Calculation
Activities Number Time (hours) Total Work Load (hours)
Theoretical 14 8 112
Midterm Preparation 1 5 5
Final Preparation 1 4 4
Quiz Preparation 2 2 4
Total 18 19 125
Contribution of Learning Outcomes to Programme Outcomes
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LO 40321000000000000
LO 50321000000000000

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