SDU Education Information System
   Home   |  Login Türkçe  | English   
 
   
 
 


 

General Description
Programme Director : Not Found  
e-mail : kemalyakut@sdu.edu.tr  
Telephone : 0 246 211 14 17  
Fax : 0 246 2111984  
ECTS Coordinator : Not Found  
e-mail : onderkizilkan@sdu.edu.tr  
Telephone : 0 246 211 14 09  
Fax : 0 246 2111984  
Address : Suleyman Demirel University Faculty of Technology Department of Energy Systems Engineering 32260/ISPARTA  
General Information : Suleyman Demirel University, Faculty of Technology published in the Official Gazette No. 27405 dated 13.11.2009 by the decision of the Council of Ministers has been established. 2010-2011 Faculty of Education at the University of Technology in Electrical and Electronic Engineering undergraduate program was opened. The students were registered to first semester courses from 2010-2011 The program teaches the language of instruction is Turkish and application oriented. In addition, 5 or 6 semester will be over a period of workplace training. The program can find detailed information about the menus.  
Qualification Awarded : Energy Systems Engineering  
Level of Qualification : First Cycle (Bachelor?s Degree).The Energy Systems Engineering Department is in the first stage of higher education in engineering degree with 240 ECTS credits . Energy Systems Engineering with a Bachelor's degree is granted with successfully completed the program requirements.  
Specific Admission Requirements : High School Diploma and Central examination of OSYM (Y-OSS, SAY-2 Score)  
Specific Arrangements for Recognition of Prior Learning (formal, non-formal and informal) : Department of Energy systems Engineering accepts students from the other universities including Mechanical Engineering Program.  
Qualification Requirements and Regulations : National qualifications frameworks may contain levels (or intermediate qualifications) within the three Bologna cycles (e.g. a short cycle within the first cycle). These levels allow institutions to structure a particular qualification and regulate progression through the qualification. Qualification Requirements and Regulations are enacted by YÖK (The Council Of Higher Education) in Turkey.  
Profile of The Programme : The objectives of the department are to offer high quality undergraduate education in energy systems engineering department, to provide students with excellent research opportunities and to teach students design, manufacturing theories and human resource management.  
Occupational Profiles of Graduates with Examples : The field of energy systems engineering can be thought of as a collection of many mechanical disciplines. Several of these subdisciplines which are typically taught at the undergraduate level are listed below: 1. In engineering offices as a design engineer, 2. In Research and Development (R&D) offices as a research engineer, 3. In food and medicine industries as a heat-processing engineer, 4. In energy related industries as an engineer who is responsible for design, operation, planning, maintenance and logistics, 5. In service industries as a service engineer,  
Access to Further Studies : Satisfactory conditions provide dual-degree or lateral degree opportunities in multi-disciplinary areas like Textile Engineering, Ghemistry Engineering, Mechatronic Engineering and Automotive Engineering.  
Aims Of Programme : Aims of Department of Energy System Engineering is to prepare Energy Systems Engineers whaving the following qualities: 1. Having basic skills in mathematics science and engineering for problem-solving and lifelong learning, 2. Having sufficient background in engineering to perform effectively, over time, in the industry or other employment, 3. Be able to pinpoint and define engineering problems in the field of Energy Systems Engineering, 4. Be able to employ necessary techniques, hardware, and communication tools for modern engineering applications and solve problems through analytical thinking in their own or related fields, 5. Be able to work in a multi-disciplinary environment, 6. Be able to follow and contribute to the developments in their own field, recognizing the significance of lifelong learning, 7. Be able to communicate effectively, having strong ethical and professional responsibility and adhering to quality, 8. Be able to take individual responsibility and to work as a part of a team.  
Examination Regulations, Assessment and Grading : Midterm exam(%40) and Final exam(%60)  
Graduation Requirements : All required courses need to be completed successfully for graduation in seven years with minimum GPA of 2.00. Summer practice of 60 work-days and one semester employment education is also required for graduation.  
Mode of Study (full-time, part-time, e-learning etc.) : Full-time 1. Course based method 2. Problem based method 3. Module based method 4. Discussion based method 5. Workshop applications 6. Project studies 7. Laboratory studies 8. Employment Educational applications  

Program Learning Outcomes
1 Application skills of technological knowledge such as mathematics, science and engineering
2 Understand the purpose of energy systems engineering, and have multiple opportunities in environments toward this understanding during university education
3 Understand and attain an ability to use the modern engineering tools, techniques and software necessary for engineering practices
4 Learn and and attain an ability to use a various means for visual, oral and written communication effectively
5 Understood the need for and importance of life-long learning
6 Attain fundamental knowledge on social, cultural, environmental, and ethical issues related to energy systems engineering and understand multiple viewpoints of these issues
7 Attain the ability to work both as an individual and as a member of multi-disciplinary teams, and to be capable of taking leadership roles when required
8 Attain knowledge and experience in every step of the design and/or production including cost efficiency analyses
9 Attain the ability to identify, define, solve and report problems related to energy systems engineering
10 To obtain the skills of carrying out projects related to energy systems engineering according to standards and legal rules
11 To learn effective computing skills and to follow technological improvements in software used in energy systems engineering
12 Have the knowledge and skills to analyze, design, develop, implement and evaluate instructional software in the field of energy systems engineering

 

Course Structure&ECTS Credits

-
For Each Student there must be 30 ECTS Credits for each Semester.There must be 60 ECTS Credits for an academic year.

1.Semester
Course Unit Code Course Unit Title Course Type Credit ECTS Print
KIM-608
General Chemistry
Compulsory 2,50 3,00 Print
MAT-127
Mathematics I
Compulsory 3,50 5,00 Print
ESM-101
Introduction to Energy Engineering
Compulsory 2,00 2,00 Print
ESM-103
Technical Drawing
Compulsory 2,00 3,00 Print
ESM-105
Basic Career Transactions
Compulsory 3,00 4,00 Print
ESM-107
Computer Programming
Compulsory 2,50 3,00 Print
ESM-109
Engineering Physics
Compulsory 3,00 4,00 Print
ING-101
English
Compulsory 2,00 2,00 Print
ATA-160
Principles of Atatürk and Modern Turkish History I
Compulsory 2,00 2,00 Print
TUR-170
Turkish I
Compulsory 2,00 2,00 Print
     Total ECTS:30  

2.Semester
Course Unit Code Course Unit Title Course Type Credit ECTS Print
MAT-128
Mathematics II
Compulsory 3,50 5,00 Print
ESM-102
Computer Aided Technical Drawing
Compulsory 2,50 3,00 Print
ESM-104
Electrical Electronics Technology
Compulsory 3,00 4,00 Print
ESM-106
Engineering Mechanics
Compulsory 2,50 3,00 Print
ESM-108
Installation Technology
Compulsory 2,50 3,00 Print
ESM-110
Material Science
Compulsory 2,00 3,00 Print
ING-102
English II
Compulsory 2,00 2,00 Print
ATA-260
Principles of Atatürk and Modern Turkish History II
Compulsory 2,00 2,00 Print
TUR-270
Turkish II
Compulsory 2,00 2,00 Print
UOS-801
Üniversite Ortak Seçmeli I
Compulsory 2,00 3,00 Print
EGT-801
Sign language
Optional 2,00 3,00 Print
     Total ECTS:30  
Total.ECTS(Yearly): 60




3.Semester
Course Unit Code Course Unit Title Course Type Credit ECTS Print
ESM-203
Strength of Materials
Compulsory 2,50 4,00 Print
ESM-209
Measurement Technique
Compulsory 2,50 3,00 Print
ESM-223
Engineering Mathematics
Compulsory 4,50 5,00 Print
ESM-201
Thermodynamics I
Compulsory 2,00 4,00 Print
ESM-205
Fluid Mechanics I
Compulsory 2,50 4,00 Print
UOS-802
Üniversite Ortak Seçmeli II
Compulsory 2,00 3,00 Print
ESM-211
Conventional Energy Resources
Optional 3,00 4,00 Print
ESM-213
Research Techniques and Report Whiting
Optional 3,00 4,00 Print
ESM-215
Labour Law and Work Safety
Optional 3,00 4,00 Print
ESM-217
Semiconductor Technology
Optional 3,00 4,00 Print
ESM-219
Electric Machines
Optional 3,00 4,00 Print
ESM-221
Entrepreneurship
Optional 3,00 4,00 Print
ESM-207
Renewable Energy Resources
Optional 2,00 3,00 Print
ESM-225
Cicuit Analysis
Optional 3,00 4,00 Print
     Total ECTS:27  

4.Semester
Course Unit Code Course Unit Title Course Type Credit ECTS Print
ESM-202
Thermodynamics ll
Compulsory 2,50 4,00 Print
ESM-206
Machine Elements
Compulsory 3,50 4,00 Print
ESM-212
Fuels and Combustion
Compulsory 2,00 3,00 Print
ESM-228
Fluid Mechanics II
Compulsory 2,50 4,00 Print
ESM-204
Heat Transfer I
Compulsory 2,50 4,00 Print
ESM-208
Numerical Methods in Engineering
Compulsory 2,50 4,00 Print
ESM-210
Automatic Control
Compulsory 2,50 3,00 Print
ESM-216
Solar Energy
Optional 3,00 4,00 Print
ESM-218
Nuclear Energy
Optional 3,00 4,00 Print
ESM-220
Wind Hydrolic and Wave Energy
Optional 3,00 4,00 Print
ESM-222
Geothermal Energy
Optional 3,00 4,00 Print
ESM-224
Management of Technology and Research-Devolopment
Optional 3,00 4,00 Print
ESM-214
Business Management and Organization
Optional 3,00 4,00 Print
ESM-226
Hydrolic and Pneumatic Systems
Optional 3,00 4,00 Print
     Total ECTS:30  
Total.ECTS(Yearly): 60




5.Semester
Course Unit Code Course Unit Title Course Type Credit ECTS Print
ESM-301
Heating and Air Conditioning Systems
Compulsory 3,00 4,00 Print
ESM-303
Turbomachinery
Compulsory 2,50 3,00 Print
ESM-307
Refrigeration Technigue
Compulsory 3,00 3,00 Print
ESM-305
Heat Transfer II
Compulsory 3,00 4,00 Print
ESM-311
Drying Technique
Optional 3,00 4,00 Print
ESM-313
Heat Insulation
Optional 3,00 4,00 Print
ESM-315
Computer Application in Energy System
Optional 3,00 4,00 Print
ESM-317
Heat Exchanger
Optional 3,00 4,00 Print
ESM-319
Mass Transfer
Optional 3,00 4,00 Print
ESM-309
Exergy Analysis and Application
Optional 3,00 4,00 Print
ESM-323
Internal Combustion Engines
Optional 3,00 4,00 Print
ESM-325
Fuel Cells and Hydrogen Technology
Optional 3,00 4,00 Print
ESM-327
Artificial Intelligence Methods
Optional 3,00 4,00 Print
ESM-329
Vapour Plumbing
Optional 3,00 4,00 Print
ESM-331
Labour Law and Work Safety
Optional 3,00 4,00 Print
ESM-333
Electric Machines
Optional 3,00 4,00 Print
ESM-321
Finite Elements Method
Optional 3,00 4,00 Print
ESM-801
Energy-Human-Universe
Optional 2,00 3,00 Print
ESM-802
Energy Efficiency in Buildings
Optional 2,00 3,00 Print
     Total ECTS:30  

6.Semester
Course Unit Code Course Unit Title Course Type Credit ECTS Print
ESM-304
Engineering Economy and Management
Compulsory 2,00 2,00 Print
ESM-308
Boilers and Burning Technologies
Compulsory 2,50 4,00 Print
ESM-306
Hydrolic Machine
Compulsory 2,50 4,00 Print
ESM-302
Energy Plants
Compulsory 3,00 4,00 Print
ESM-332
Refrigeration Project
Optional 3,00 4,00 Print
ESM-310
Energy Storage Systems
Optional 3,00 4,00 Print
ESM-312
Alternative Heating and Refrigerant Systems
Optional 3,00 4,00 Print
ESM-314
Heating Systems Design
Optional 3,00 4,00 Print
ESM-316
Project Design and Cost Analysis
Optional 3,00 4,00 Print
ESM-318
Heat Pumps
Optional 3,00 4,00 Print
ESM-320
Radiation Heat Transfer
Optional 3,00 4,00 Print
ESM-322
Energy Productivity Applications
Optional 3,00 4,00 Print
ESM-324
Vegetable Energy Resource
Optional 3,00 4,00 Print
ESM-326
Absorption Energy Systems
Optional 3,00 4,00 Print
ESM-328
Optimization of Thermal Systems
Optional 3,00 4,00 Print
ESM-330
Computer Aided Analysis
Optional 3,00 4,00 Print
ESM-334
Energy Transmission and Distribution
Optional 3,00 4,00 Print
ESM-803
Alternative Energy Sources
Optional 2,00 3,00 Print
ESM-804
Energy and Environment
Optional 2,00 3,00 Print
ESM-805
Refrigeration and Air Conditioning Technology
Optional 2,00 3,00 Print
     Total ECTS:30  
Total.ECTS(Yearly): 60




7.Semester
Course Unit Code Course Unit Title Course Type Credit ECTS Print
ESM-405
Energy Systems Application Workshop
Compulsory 1,50 4,00 Print
ESM-401
Internship l
Compulsory 0,00 8,00 Print
ESM-403
Graduation Project
Compulsory 1,00 2,00 Print
ESM-429
Gas Technology
Compulsory 3,00 4,00 Print
ESM-431
Dizayn in Energy Engineering Systems
Compulsory 2,00 6,00 Print
ESM-407
Gas Technology
Optional 3,00 4,00 Print
ESM-409
Energy Transmission and Distribution
Optional 3,00 4,00 Print
ESM-411
Energy Systems Design
Optional 3,00 4,00 Print
ESM-413
HVAC Design
Optional 3,00 4,00 Print
ESM-415
Statistic Methods in Engineering
Optional 3,00 4,00 Print
ESM-417
Pumps
Optional 3,00 4,00 Print
ESM-419
Energy Analysis in Building
Optional 3,00 4,00 Print
ESM-421
Environmental Effects of Energy Systems
Optional 3,00 4,00 Print
ESM-423
Measurement and Control Thermal Systems
Optional 3,00 4,00 Print
ESM-427
Preventive Maintenance in Energy Systems
Optional 3,00 4,00 Print
ESM-425
Cogeneration and Trijenerasyon
Optional 3,00 4,00 Print
     Total ECTS:40  

8.Semester
Course Unit Code Course Unit Title Course Type Credit ECTS Print
TKF-402
Workplace Training
Compulsory 4,00 4,00 Print
TKF-404
Workplace Training Applications
Compulsory 8,00 8,00 Print
TKF-406
Internship
Compulsory 0,00 16,00 Print
ESM-404
Workplace Training
Compulsory 12,00 20,00 Print
ESM-402
Internship ll
Compulsory 0,00 8,00 Print
ESM-408
Graduation Project
Compulsory 1,00 2,00 Print
REK-402
Scientific and Cultural Activities
Compulsory 0,00 2,00 Print
     Total ECTS:60  
Total.ECTS(Yearly): 60




-

1.Semester

2.Semester
Total.ECTS(Yearly): 60




3.Semester

4.Semester
Total.ECTS(Yearly): 60




5.Semester

6.Semester
Total.ECTS(Yearly): 60




7.Semester

8.Semester
Total.ECTS(Yearly): 60