ELECTRICAL-ELECTRONICS ENGINEERING (MASTER) (WITH THESIS) (ENGLISH)
Qualification Awarded Program Süresi Toplam Kredi (AKTS) Öğretim Şekli Yeterliliğin Düzeyi ve Öğrenme Alanı
2 120 FULL TIME TYÇ, TR-NQF-HE, EQF-LLL, ISCED (2011):Level 7
QF-EHEA:Second Cycle
TR-NQF-HE, ISCED (1997-2013): 52

Ders Genel Tanıtım Bilgileri

Course Code: 3026002038
Ders İsmi: Energy Systems Optimizations
Ders Yarıyılı: Fall
Ders Kredileri:
Theoretical Practical Labs Credit ECTS
3 0 0 3 6
Language of instruction: EN
Ders Koşulu:
Ders İş Deneyimini Gerektiriyor mu?: No
Other Recommended Topics for the Course:
Type of course: Department Elective
Course Level:
Master TR-NQF-HE:7. Master`s Degree QF-EHEA:Second Cycle EQF-LLL:7. Master`s Degree
Mode of Delivery: Face to face
Course Coordinator : Prof. Dr. Çağatay ULUIŞIK
Course Lecturer(s):
Course Assistants:

Dersin Amaç ve İçeriği

Course Objectives: Provide the students with the necessary knowledge and skill to optimization of energy systems for different configurations.
Course Content: Basic concepts of optimization, Methods of optimizing energy systems, Objective function ( thermodynamic, economic, thermoeconomy),Optimization methods, Linear Programming, Non-linear programming, Simplex method, Application of optimization on energy conversion plants

Learning Outcomes

The students who have succeeded in this course;
Learning Outcomes
1 - Knowledge
Theoretical - Conceptual
1) Knows the concepts of optimization problem
2) Energy systems can turn their problems into optimization problems
3) Solve optimization problems
2 - Skills
Cognitive - Practical
1) Can use computer to solve optimisation problems
3 - Competences
Communication and Social Competence
Learning Competence
Field Specific Competence
Competence to Work Independently and Take Responsibility

Ders Akış Planı

Week Subject Related Preparation
1) Basic concepts of optimization Convex Optimization of Power Systems, 1st Edition, Joshua Adam Taylor, Cambridge University Press, 2015. Fundamentals of Power System Economics, 2nd Edition, Daniel S. Kirschen, Goran StrBac, WILEY, 2018. Mathematical Programming for Power System Operation: Fom Theory to Applications in Python, 1st Edition, WILEY-IEEE Press, 2021. Power System Optimization Modelling in GAMS, 1st Edition, Alireza Soroudi, Springer, 2017.
2) Workable and Optimum Concept Convex Optimization of Power Systems, 1st Edition, Joshua Adam Taylor, Cambridge University Press, 2015. Fundamentals of Power System Economics, 2nd Edition, Daniel S. Kirschen, Goran StrBac, WILEY, 2018. Mathematical Programming for Power System Operation: Fom Theory to Applications in Python, 1st Edition, WILEY-IEEE Press, 2021. Power System Optimization Modelling in GAMS, 1st Edition, Alireza Soroudi, Springer, 2017.
3) Optimization Concept and Objects (Objective Function, Constraint, etc.) Convex Optimization of Power Systems, 1st Edition, Joshua Adam Taylor, Cambridge University Press, 2015. Fundamentals of Power System Economics, 2nd Edition, Daniel S. Kirschen, Goran StrBac, WILEY, 2018. Mathematical Programming for Power System Operation: Fom Theory to Applications in Python, 1st Edition, WILEY-IEEE Press, 2021. Power System Optimization Modelling in GAMS, 1st Edition, Alireza Soroudi, Springer, 2017.
4) One-Dimensional Unconstrained Optimization Convex Optimization of Power Systems, 1st Edition, Joshua Adam Taylor, Cambridge University Press, 2015. Fundamentals of Power System Economics, 2nd Edition, Daniel S. Kirschen, Goran StrBac, WILEY, 2018. Mathematical Programming for Power System Operation: Fom Theory to Applications in Python, 1st Edition, WILEY-IEEE Press, 2021. Power System Optimization Modelling in GAMS, 1st Edition, Alireza Soroudi, Springer, 2017.
5) One-Dimensional Constrained Optimization Convex Optimization of Power Systems, 1st Edition, Joshua Adam Taylor, Cambridge University Press, 2015. Fundamentals of Power System Economics, 2nd Edition, Daniel S. Kirschen, Goran StrBac, WILEY, 2018. Mathematical Programming for Power System Operation: Fom Theory to Applications in Python, 1st Edition, WILEY-IEEE Press, 2021. Power System Optimization Modelling in GAMS, 1st Edition, Alireza Soroudi, Springer, 2017.
6) Multi-Dimensional Constrained Optimization Convex Optimization of Power Systems, 1st Edition, Joshua Adam Taylor, Cambridge University Press, 2015. Fundamentals of Power System Economics, 2nd Edition, Daniel S. Kirschen, Goran StrBac, WILEY, 2018. Mathematical Programming for Power System Operation: Fom Theory to Applications in Python, 1st Edition, WILEY-IEEE Press, 2021. Power System Optimization Modelling in GAMS, 1st Edition, Alireza Soroudi, Springer, 2017.
7) Linear and Non-Linear Equation Solutions Convex Optimization of Power Systems, 1st Edition, Joshua Adam Taylor, Cambridge University Press, 2015. Fundamentals of Power System Economics, 2nd Edition, Daniel S. Kirschen, Goran StrBac, WILEY, 2018. Mathematical Programming for Power System Operation: Fom Theory to Applications in Python, 1st Edition, WILEY-IEEE Press, 2021. Power System Optimization Modelling in GAMS, 1st Edition, Alireza Soroudi, Springer, 2017.
8) Midterm exam
9) Optimization in Energy Systems Convex Optimization of Power Systems, 1st Edition, Joshua Adam Taylor, Cambridge University Press, 2015. Fundamentals of Power System Economics, 2nd Edition, Daniel S. Kirschen, Goran StrBac, WILEY, 2018. Mathematical Programming for Power System Operation: Fom Theory to Applications in Python, 1st Edition, WILEY-IEEE Press, 2021. Power System Optimization Modelling in GAMS, 1st Edition, Alireza Soroudi, Springer, 2017.
10) Optimization in Energy Systems Convex Optimization of Power Systems, 1st Edition, Joshua Adam Taylor, Cambridge University Press, 2015. Fundamentals of Power System Economics, 2nd Edition, Daniel S. Kirschen, Goran StrBac, WILEY, 2018. Mathematical Programming for Power System Operation: Fom Theory to Applications in Python, 1st Edition, WILEY-IEEE Press, 2021. Power System Optimization Modelling in GAMS, 1st Edition, Alireza Soroudi, Springer, 2017.
11) Application of energy systems optimization problems Convex Optimization of Power Systems, 1st Edition, Joshua Adam Taylor, Cambridge University Press, 2015. Fundamentals of Power System Economics, 2nd Edition, Daniel S. Kirschen, Goran StrBac, WILEY, 2018. Mathematical Programming for Power System Operation: Fom Theory to Applications in Python, 1st Edition, WILEY-IEEE Press, 2021. Power System Optimization Modelling in GAMS, 1st Edition, Alireza Soroudi, Springer, 2017.
12) Linear Programming Convex Optimization of Power Systems, 1st Edition, Joshua Adam Taylor, Cambridge University Press, 2015. Fundamentals of Power System Economics, 2nd Edition, Daniel S. Kirschen, Goran StrBac, WILEY, 2018. Mathematical Programming for Power System Operation: Fom Theory to Applications in Python, 1st Edition, WILEY-IEEE Press, 2021. Power System Optimization Modelling in GAMS, 1st Edition, Alireza Soroudi, Springer, 2017.
13) Linear Programming and Graphics Solution Convex Optimization of Power Systems, 1st Edition, Joshua Adam Taylor, Cambridge University Press, 2015. Fundamentals of Power System Economics, 2nd Edition, Daniel S. Kirschen, Goran StrBac, WILEY, 2018. Mathematical Programming for Power System Operation: Fom Theory to Applications in Python, 1st Edition, WILEY-IEEE Press, 2021. Power System Optimization Modelling in GAMS, 1st Edition, Alireza Soroudi, Springer, 2017.
14) Economic optimization application on energy conversion systems Convex Optimization of Power Systems, 1st Edition, Joshua Adam Taylor, Cambridge University Press, 2015. Fundamentals of Power System Economics, 2nd Edition, Daniel S. Kirschen, Goran StrBac, WILEY, 2018. Mathematical Programming for Power System Operation: Fom Theory to Applications in Python, 1st Edition, WILEY-IEEE Press, 2021. Power System Optimization Modelling in GAMS, 1st Edition, Alireza Soroudi, Springer, 2017.
15) Final exam

Sources

Course Notes / Textbooks: Convex Optimization of Power Systems, 1st Edition, Joshua Adam Taylor, Cambridge University Press, 2015.
Fundamentals of Power System Economics, 2nd Edition, Daniel S. Kirschen, Goran StrBac, WILEY, 2018.
Mathematical Programming for Power System Operation: Fom Theory to Applications in Python, 1st Edition, WILEY-IEEE Press, 2021.
Power System Optimization Modelling in GAMS, 1st Edition, Alireza Soroudi, Springer, 2017.
References: Convex Optimization of Power Systems, 1st Edition, Joshua Adam Taylor, Cambridge University Press, 2015.
Fundamentals of Power System Economics, 2nd Edition, Daniel S. Kirschen, Goran StrBac, WILEY, 2018.
Mathematical Programming for Power System Operation: Fom Theory to Applications in Python, 1st Edition, WILEY-IEEE Press, 2021.
Power System Optimization Modelling in GAMS, 1st Edition, Alireza Soroudi, Springer, 2017.

Ders - Program Öğrenme Kazanım İlişkisi

Ders Öğrenme Kazanımları

1

2

3

4
Program Outcomes
1) Through scientific research in the field of Electrical-Electronics Engineering, they expand and deepen their knowledge, evaluate, interpret, and apply the information.
2) They have comprehensive knowledge of the current techniques and methods applied in Electrical-Electronics Engineering, as well as their limitations.
3) Using uncertain, limited, or incomplete data, they complement and apply knowledge through scientific methods; they can integrate information from different disciplines.
4) They are aware of new and emerging applications in Electrical-Electronics Engineering, and when necessary, they investigate and learn about them.
5) They define and formulate Electrical-Electronics Engineering problems, develop methods to solve them, and apply innovative approaches in the solutions.
6) They develop new and/or original ideas and methods; design complex systems or processes and develop innovative/alternative solutions in their designs.
7) They design and apply theoretical, experimental, and modeling-based research; they analyze and solve complex problems encountered during this process.
8) They can work effectively in both interdisciplinary and multidisciplinary teams, lead such teams, and develop solution approaches in complex situations; they can work independently and take responsibility.
9) They communicate effectively in both spoken and written forms using a foreign language at least at the B2 General Level of the European Language Portfolio.
10) They communicate the processes and results of their work in a systematic and clear manner, either in writing or verbally, in national and international contexts, both within and outside their field.
11) They are aware of the social, environmental, health, safety and legal aspects of Electrical and Electronics Engineering applications, project management and business life practices and are aware of the constraints these impose on engineering applications.
12) They observe social, scientific and ethical values in the stages of collecting, interpreting and announcing the data and in all professional activities.

Ders - Öğrenme Kazanımı İlişkisi

No Effect 1 Lowest 2 Low 3 Average 4 High 5 Highest
           
Program Outcomes Level of Contribution
1) Through scientific research in the field of Electrical-Electronics Engineering, they expand and deepen their knowledge, evaluate, interpret, and apply the information.
2) They have comprehensive knowledge of the current techniques and methods applied in Electrical-Electronics Engineering, as well as their limitations.
3) Using uncertain, limited, or incomplete data, they complement and apply knowledge through scientific methods; they can integrate information from different disciplines.
4) They are aware of new and emerging applications in Electrical-Electronics Engineering, and when necessary, they investigate and learn about them.
5) They define and formulate Electrical-Electronics Engineering problems, develop methods to solve them, and apply innovative approaches in the solutions.
6) They develop new and/or original ideas and methods; design complex systems or processes and develop innovative/alternative solutions in their designs.
7) They design and apply theoretical, experimental, and modeling-based research; they analyze and solve complex problems encountered during this process.
8) They can work effectively in both interdisciplinary and multidisciplinary teams, lead such teams, and develop solution approaches in complex situations; they can work independently and take responsibility.
9) They communicate effectively in both spoken and written forms using a foreign language at least at the B2 General Level of the European Language Portfolio.
10) They communicate the processes and results of their work in a systematic and clear manner, either in writing or verbally, in national and international contexts, both within and outside their field.
11) They are aware of the social, environmental, health, safety and legal aspects of Electrical and Electronics Engineering applications, project management and business life practices and are aware of the constraints these impose on engineering applications.
12) They observe social, scientific and ethical values in the stages of collecting, interpreting and announcing the data and in all professional activities.

Öğrenme Etkinliği ve Öğretme Yöntemleri

Alan Çalışması
Bireysel çalışma ve ödevi
Homework

Ölçme ve Değerlendirme Yöntemleri ve Kriterleri

Yazılı Sınav (Açık uçlu sorular, çoktan seçmeli, doğru yanlış, eşleştirme, boşluk doldurma, sıralama)
Homework
Bireysel Proje

Assessment & Grading

Semester Requirements Number of Activities Level of Contribution
Project 1 % 30
Midterms 1 % 30
Semester Final Exam 1 % 40
total % 100
PERCENTAGE OF SEMESTER WORK % 60
PERCENTAGE OF FINAL WORK % 40
total % 100

İş Yükü ve AKTS Kredisi Hesaplaması

Activities Number of Activities Duration (Hours) Workload
Course Hours 14 3 42
Study Hours Out of Class 14 4 56
Project 1 30 30
Homework Assignments 3 15 45
Midterms 1 2 2
Final 1 2 2
Total Workload 177