Türkçe
Graduate School Of Natural And Applied Sciences Master of Science Programme in Energy Systems Engineering

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 Print
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 Print
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 Print
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 AdıPy1Py2Py3Py4Py5Py6Py7
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 5445454
Research Methods and Scientific Ethics4445555
Project development and Management4444533
        
1. Year - 2. Term
Ders AdıPy1Py2Py3Py4Py5Py6Py7
Seminar5444543
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 5445545
        
2. Year - 1. Term
Ders AdıPy1Py2Py3Py4Py5Py6Py7
Special Studies 5454455
M.Sc.Thesis5455445
        
2. Year - 2. Term
Ders AdıPy1Py2Py3Py4Py5Py6Py7
Special Studies 5455554
        
 

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