Qualification Awarded

Master of Science in Energy Systems Engineering

Specific Admission Requirements

To get at least 60 from ALES (Academic Personnel and Graduate Education Entrance Exam) and to pass the science exam

Qualification Requirements

To have successfully completed 90.0 ECTS course in Eneji Systems Engineering Graduate Program. The GPA must be at least 3.00 out of 4.00.

Recognition of Prior Learning

Students are admitted to the quota determined by the transfer programs and academic success.

History

Our program has been active in 2011-2012 academic year.

Profile of the Programme

An average of 10 graduate students are accepted each year. In addition, with the ERASMUS exchange program, which is changing every half year, the student is sent and received by the FARABİ exchange program to higher education institutions providing education in the country.

Program Outcomes

1-	Improve university-industry cooperation in the energy field

2-	Related to the field section to cooperate with domestic and overseas partners to develop strategies and projects.

3-	Know and apply the principles of quality and productivity in business.

4-	Individual and as a team member to take responsibility, open-minded, open to criticism, constructive and self-confidence to own, operate efficiently and effectively.

5-	The region's energy resources and economy very well acquainted, both local and global thinking, to apply what is learned.

6-	To comply with interdisciplinary work.

7-	Energy required by the field-level computer programs to use.

Exam Regulations & Assesment & Grading

Exams, assignments, projects, applications, presentations, thesis

Graduation Requirements

To have successfully completed 90.0 ECTS course in Energy Systems Engineering Master Program and to have a minimum GPA of 3.00 out of 4.00.

Occupational Profiles of Graduates

Our graduates have the opportunity to find jobs that require expertise in their fields.

Access to Further Studies

Candidates who have successfully completed the master's degree can apply to the doctoral program if they take valid grades from the Academic Personnel and Graduate Education Entrance Examination (ALES).

Mode of Study

master degree

Programme Director

Prof.Dr. Tayfun BÜKE

ECTS Coordinator

Asist Prof.Dr. Durmuş KARABACAK

Course Structure Diagram with Credits

1. Year - 1. Term

Course Unit Code	Course Unit Title	Course Type	Theory	Practice	ECTS
ESM5503	Advanced Thermodynamics	Elective	3	0	6
ESM5505	Energy Management in Industry	Elective	3	0	6
ESM5507	Operational Research in Energy Systems	Elective	3	0	6
ESM5509	Geothermal Energy and Applications	Elective	3	0	6
ESM5511	Power Systems Economics	Elective	3	0	6
ESM5513	Nuclear Reactor Dynamics	Elective	3	0	6
ESM5515	Advanced Composite Materials	Elective	3	0	6
ESM5517	Internal Combustion Engines	Elective	3	0	6
ESM5519	Exergy Analysis in Thermal Systems	Elective	3	0	6
ESM5521	Heat Exchangers and Technology	Elective	3	0	6
ESM5523	Natural Gas Systems	Elective	3	0	6
ESM5525	Solar Energy and Systems	Elective	3	0	6
ESM5527	Fusion Energy-I	Elective	3	0	6
ESM5531	Special Topics in Energy Systems Engineering	Elective	3	0	6
ESM5533	Design, Analysis and Optimization of Thermal Systems	Elective	3	0	6
ESM5535	Monte Carlo Method	Elective	3	0	6
ESM5537	Optimization of Energy Systems Designs	Elective	3	0	6
ESM5539	Plasma II	Elective	3	0	6
ESM5541	Computational Methods in Heat and Fluid Mechanics	Elective	3	0	6
ESM5543	Composite Materials and Applications	Elective	3	0	6
ESM5545	Clean Combustion Technologies	Elective	3	0	6
ESM5549	Engineering Mathematics	Elective	3	0	4
ESM5701	Special Studies	Required	4	0	6
FBE5090	Research Methods and Scientific Ethics	Required	2	0	2
FBE5500	Project development and Management	Elective	3	0	6

1. Year - 2. Term

Course Unit Code	Course Unit Title	Course Type	Theory	Practice	ECTS
ESM5090	Seminar	Required	0	2	6
ESM5502	Advanced Fluid Mechanics	Elective	3	0	6
ESM5504	Advanced Heat and Mass Transfer	Elective	3	0	6
ESM5506	Special Topics in Energy Sciences and Technologies	Elective	3	0	6
ESM5510	Modeling and Simulation of Energy Systems	Elective	3	0	6
ESM5512	Computational Methods in Heat and Fluid Mechanics	Elective	3	0	6
ESM5514	Radiation Protection	Elective	3	0	6
ESM5516	Advanced Finite Element Method	Elective	3	0	6
ESM5518	Alternative Fuels in Motor Vehicles	Elective	3	0	6
ESM5520	Renewable Energy Exergoeconomic Modeling	Elective	3	0	6
ESM5522	Advanced Thermal Insulation Applications	Elective	3	0	6
ESM5526	Wind Energy Conversion Systems	Elective	3	0	6
ESM5528	Fusion Energy-II	Elective	3	0	6
ESM5530	Exergy Analysis in Energy Systems	Elective	3	0	6
ESM5536	Environmental Impacts of Nuclear Reactors	Elective	3	0	4
ESM5538	Plasma I	Elective	3	0	6
ESM5540	Finite Element Applications	Elective	3	0	6
ESM5542	Hydraulic Machines and Turbines	Elective	3	0	4
ESM5544	Introduction to Computational Fluid Dynamics	Elective	3	0	6
ESM5546	Drying Technology and Process	Elective	3	0	4
ESM5548	Experimental Techniques in Nuclear and Particle Physics	Elective	3	0	6
ESM5702	Special Studies	Required	4	0	6

2. Year - 1. Term

Course Unit Code	Course Unit Title	Course Type	Theory	Practice	ECTS
ESM5703	Special Studies	Required	4	0	6
ESM5801	M.Sc.Thesis	Required	0	0	24

2. Year - 2. Term

Course Unit Code	Course Unit Title	Course Type	Theory	Practice	ECTS	Print
ESM5704	Special Studies	Required	4	0	6

Evaluation Questionnaires

Course & Program Outcomes Matrix

1. Year - 1. Term

Ders Adı	Py1	Py2	Py3	Py4	Py5	Py6	Py7
Advanced Thermodynamics
Energy Management in Industry
Operational Research in Energy Systems
Geothermal Energy and Applications
Power Systems Economics
Nuclear Reactor Dynamics
Advanced Composite Materials
Internal Combustion Engines
Exergy Analysis in Thermal Systems
Heat Exchangers and Technology
Natural Gas Systems
Solar Energy and Systems
Fusion Energy-I
Special Topics in Energy Systems Engineering
Design, Analysis and Optimization of Thermal Systems
Monte Carlo Method
Optimization of Energy Systems Designs
Plasma II
Computational Methods in Heat and Fluid Mechanics
Composite Materials and Applications
Clean Combustion Technologies
Engineering Mathematics
Special Studies	5	4	4	5	4	5	4
Research Methods and Scientific Ethics	4	4	4	5	5	5	5
Project development and Management	4	4	4	4	5	3	3

1. Year - 2. Term

Ders Adı	Py1	Py2	Py3	Py4	Py5	Py6	Py7
Seminar	5	4	4	4	5	4	3
Advanced Fluid Mechanics
Advanced Heat and Mass Transfer
Special Topics in Energy Sciences and Technologies
Modeling and Simulation of Energy Systems
Computational Methods in Heat and Fluid Mechanics
Radiation Protection
Advanced Finite Element Method
Alternative Fuels in Motor Vehicles
Renewable Energy Exergoeconomic Modeling
Advanced Thermal Insulation Applications
Wind Energy Conversion Systems
Fusion Energy-II
Exergy Analysis in Energy Systems
Environmental Impacts of Nuclear Reactors
Plasma I
Finite Element Applications
Hydraulic Machines and Turbines
Introduction to Computational Fluid Dynamics
Drying Technology and Process
Experimental Techniques in Nuclear and Particle Physics
Special Studies	5	4	4	5	5	4	5

2. Year - 1. Term

Ders Adı	Py1	Py2	Py3	Py4	Py5	Py6	Py7
Special Studies	5	4	5	4	4	5	5
M.Sc.Thesis	5	4	5	5	4	4	5

2. Year - 2. Term

Ders Adı	Py1	Py2	Py3	Py4	Py5	Py6	Py7
Special Studies	5	4	5	5	5	5	4