Energy Systems Engineering

Energy Systems Engineering

Facebook Share

Energy Systems Engineering Program

About the Program

Energy Systems Engineering is a branch of engineering that conducts studies on energy production systems, resources, systems modelling, simulation, optimization, analysis, design, energy storage and energy efficiency. The legislation, management and policies inherent in the modern energy sector are important within Energy Systems Engineering. Besides the use and management of available technologies, Energy Systems Engineers should also be able to produce new technologies. Therefore, the Energy Systems Engineering Program aims to train qualified engineers who are able to use energy resources and types in an efficient way, who can plan energy production, usage and transmission, who understand energy-related laws, and who are capable of critical thinking and use ethical and social values in their work.

 

Educational Opportunities

In Energy Systems Engineering Program, the education curriculum covers basic sciences in the first year and, in the second year offers a programme involving technical lessons involving tools such as thermodynamics, heat and mass transfer, reaction kinetics. From the second year, lectures focus on various energy systems.

Energy Systems Engineering is a practical subject where the students use the fully equipped engineering laboratories. Most of the lectures given in the third and fourth years are in the practical labs to allow the consolidation of students’ education. The practise of education in real life is undertaken by attending training courses where students see the studies conducted in the field of energy in other institutions. At the end of four years, each student receives a graduation project, the main purpose of which is to help students conduct studies in topics learnt during the four years and find solutions to recent problems.

 

Career Areas

Energy Systems engineers can develop careers in a broad range of workplaces in the public and private sectors. The increasing amount of energy investments, especially over the last decade, has resulted in an increase in demand for engineers in the energy sector. Graduates of Energy Systems Engineering Program can work in areas related with energy efficiency, energy conservation and energy laws. Today, in response to demand for clean energy, investments are increasing in renewable energy such as solar, wind, bioenergy, geothermal and hydroelectric power plants. In addition to these, there are planned developments on thermal power plants and nuclear power plants. These developments also create a significant source of employment.

 

Curriculum

Course Code Course Name Credit Theoric Lab / Tutorial
First Semester
ENG101 Reading and Writing Skills 1 3 2 2
HIST100 HISTORY OF CIVILIZATION Non-Credit 2 -
TARH100 MODERN TÜRKİYE TARİHİ Non-Credit 2 -
CMPE101 INTRODUCTION TO COMPUTING 3 2 2
CHEM110 GENERAL CHEMISTRY 4 3 2
MATH101 CALCULUS-I 4 3 2
MATH121 LINEAR ALGEBRA 2 2 -
ENRE100 INTRODUCTION TO ENERGY SYSTEMS ENGINEERING Non-Credit 1 -
Second Semester
ENG102 Reading and Writing Skills II 3 2 2
TREG100 TURKISH LANGUAGE Non-Credit 2 -
TURK100 INTRODUCTION TO TURKISH Non-Credit 2 -
CMPE112 INTRODUCTION TO PROGRAMMING 4 3 2
MATH102 CALCULUS-II 4 3 2
PHYS101 GENERAL PHYSICS I 4 3 2
EFEX11 FREE ELECTIVE 3 3 -
Third Semester
PHYS102 GENERAL PHYSICS II 4 3 2
CVLE211 ENGINEERING MECHANICS-I 4 4 1
MATH203 DIFFERENTIAL EQUATIONS 3 3 1
MATH205 INTRODUCTION TO PROBABILITY AND STATISTICS 4 4 1
CVLE101 ENGINEERING DRAWING 3 2 3
Fourth Semester
EELE202 CIRCUIT THEORY I 4 3 2
INDE212 MATERIALS & MANUFACTURING PROCESSES 4 4 1
INDE232 ENGINEERING ECONOMY 3 3 -
EFEXX1 FACULTY ELECTIVE 3 3 -
MATH202 MATHEMATICAL METHODS FOR ENGINEERS 4 3 2
Fifth Semester
EELE341 ELECTRONICS I 4 3 2
EELE301 CIRCUIT THEORY II 4 4 1
ENRE301 THERMODYNAMICS 4 3 2
ENRE303 ENERGY SYSTEMS-I 4 3 2
ENRE305 ELECTROMECHANICAL ENERGY CONVERSION 4 3 2
Sixth Semester
ENRE302 HEAT AND MASS TRANSFER 4 3 2
ENRE304 ENERGY SYSTEMS MODELING, ANALYSIS AND SIMULATION 4 3 2
ENRE306 ENERGY SYSTEMS-II 4 3 2
ENRE308 ENERGY EFFICIENCY AND MANAGEMENT 3 3 -
EFEXX2 FACULTY ELECTIVE 3 3 -
Seventh Semester
CVLE331 AKIŞKANLAR MEKANİĞİ 4 4 1
EFEXX3 FACULTY ELECTIVE 3 3 -
ENRE300 SUMMER TRAINING Non-Credit 0 -
ENRE401 POWER TRANSMISSION AND DISTRIBUTION 4 4 1
ENRE405 FUELS AND COMBUSTION 3 0 -
EPR401 Project Management 3 3 -
Eighth Semester
EPR402 Capstone Project 4 2 4
EFEX12 FREE ELECTIVE 3 3 -
EFEXX4 FACULTY ELECTIVE 3 3 -
ENRE402 ENVIRONMENTAL OF ENERGY SYSTEMS 3 3 -
ENRE404 ENERGY LAWS AND POLICIES 3 3 -
Elective Courses
ENRE312 WIND ENERGY TECHNOLOGY 3 3 -
ENRE311 SOLAR ENERGY TECHNOLOGY 3 3 -
ELE246 MODELING AND SIMULATION 3 3 -
MCLE443 HEATING VENTILATION AND AIR CONDITIONING 3 3 -
EELE416 POWER SYSTEM PROTECTION 3 3 -
EELE456 HIGH VOLTAGE TECHNIQUES 3 3 1
ILE335 ETHICS 3 3 -
ENVE427 Soil and Grd.water Pollution 3 3 -
EELE453 ELECTRICAL MACHINERY 3 3 1
MCLE446 Thermal Power Engines 3 3 -
Years
4
Teaching Language
English
Annual Tuition Fee
3194 €
After discount
3194 €
Degree
Bachelor
Field of Study
Engineering & Technology

How to apply using ApplyforFree
only takes 5 Minutes!

filter the country based on your preferences, We are focusing More on Turkey and North Cyprus Universities .
Choose the university of your choice which fits your requirements. More information provided about courses include tuition fees, visa requirements, application deadlines, etc.
Upload the required documents, and send your application. You can also track the progress of your application. You can also go back and apply to another university (if you want), and there's no need to re-upload more documents as the previous once will suffice . The procedure is very simple!