INDUSTRIAL ENGINEERING (MS) (THESIS) (ENGLISH)
Qualification Awarded	Program Süresi	Toplam Kredi (AKTS)	Öğretim Şekli	Yeterliliğin Düzeyi ve Öğrenme Alanı
Master's ( Second Cycle) Degree	2	120	FULL TIME	TYÇ, TR-NQF-HE, EQF-LLL, ISCED (2011):Level 7 QF-EHEA:Second Cycle TR-NQF-HE, ISCED (1997-2013):

Ders Genel Tanıtım Bilgileri

Course Code:

3028002049

Ders İsmi:

Energy Systems in Industry

Ders Yarıyılı:

Fall

Ders Kredileri:

Theoretical	Practical	Labs	Credit	ECTS
3	0	0	3	6

Language of instruction:

Ders Koşulu:

Ders İş Deneyimini Gerektiriyor mu?:

Other Recommended Topics for the Course:

Type of course:

Anabilim Dalı/Lisansüstü Seçmeli

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 :

Dr.Öğr.Üyesi Elif TARAKÇI

Course Lecturer(s):

Course Assistants:

Dersin Amaç ve İçeriği

Course Objectives:	This course focuses on energy production, management, efficiency and sustainability in industry.
Course Content:	The course provides theoretical and practical knowledge of the design, applications and optimization of energy resources and systems.

Learning Outcomes

The students who have succeeded in this course;

Learning Outcomes

1 - Knowledge
Theoretical - Conceptual
1) They will understand the components, design principles and operation of energy systems used in industry and gain the ability to manage these systems efficiently and sustainably.
2) They will be able to compare different energy production technologies (fossil fuels, renewable energy, nuclear energy) and their industrial applications and evaluate the economic and environmental impacts of these systems.
3) By integrating energy efficiency, energy management and sustainability strategies into industrial processes, they will be able to develop solutions to reduce energy costs and lower carbon footprints.
2 - Skills
Cognitive - Practical
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)	Introduction and Basic Concepts	Lecture Notları
2)	Energy Production Technologies	Lecture Notları
3)	Energy Conversion Technologies	Lecture Notları
4)	Energy Transportation and Distribution Systems	Lecture Notları
5)	Industrial Energy Management and Energy Efficiency	Lecture Notları
6)	Energy Use in Industrial Processes	Lecture Notları
7)	Sustainable Energy Systems	Lecture Notları
8)	Midterm
9)	Energy Economics and Finance	Lecture Notları
10)	Design and Optimization of Energy Systems	Lecture Notları
11)	Energy Policies and Regulations	Lecture Notları
12)	Renewable Energy Applications	Lecture Notları
13)	Smart Energy Systems	Lecture Notları
14)	Security and Risk Management in Energy Systems	Lecture Notları
15)	Project Presentations and General Evaluation	Lecture Notları
16)	Final Exam

Sources

Course Notes / Textbooks:	Ders Notları/Lecture Notes
References:	"Energy Systems Engineering: Evaluation and Implementation" by Francis Vanek, Lou Meyer, and Anton Li "Handbook of Energy Efficiency and Renewable Energy" edited by Frank Kreith and D. Yogi Goswami "Energy Management Handbook" by Wayne C. Turner "Industrial Energy Management and Utilization" by L. C. Witte, P. S. Schmidt, and D. R. Brown

Ders - Program Öğrenme Kazanım İlişkisi

Ders Öğrenme Kazanımları	1	2	3
Program Outcomes
1) He/she reaches knowledge in depth and breadth by conducting scientific research in his/her field, evaluates, interprets and applies knowledge.
2) Has comprehensive knowledge of current techniques and methods applied in engineering and their limitations.
3) Using uncertain, limited or incomplete data, completes and applies knowledge with scientific methods; can use knowledge from different disciplines together.
4) He/she is aware of new and developing applications of his/her profession and examines and learns them when needed.
5) Defines and formulates problems related to the field, develops methods to solve them and applies innovative methods in solutions.
6) Develops new and/or original ideas and methods; designs complex systems or processes and develops innovative/alternative solutions in their designs.
7) Designs and implements theoretical, experimental and modeling-based research; examines and solves complex problems encountered in this process.
8) Can work effectively in interdisciplinary and multidisciplinary teams, can lead such teams and develop solution approaches in complex situations; can work independently and take responsibility.
9) Communicates verbally and in writing using a foreign language at least at the European Language Portfolio B2 General Level.
10) Communicates the processes and results of his/her studies systematically and clearly in writing or orally in national and international environments within or outside that field.
11) He/she knows the social, environmental, health, safety, legal dimensions of engineering practices as well as project management and business life applications and is aware of the limitations these impose on engineering practices.
12) It observes social, scientific and ethical values in the stages of data collection, interpretation and announcement 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)	He/she reaches knowledge in depth and breadth by conducting scientific research in his/her field, evaluates, interprets and applies knowledge.
2)	Has comprehensive knowledge of current techniques and methods applied in engineering and their limitations.
3)	Using uncertain, limited or incomplete data, completes and applies knowledge with scientific methods; can use knowledge from different disciplines together.
4)	He/she is aware of new and developing applications of his/her profession and examines and learns them when needed.
5)	Defines and formulates problems related to the field, develops methods to solve them and applies innovative methods in solutions.
6)	Develops new and/or original ideas and methods; designs complex systems or processes and develops innovative/alternative solutions in their designs.
7)	Designs and implements theoretical, experimental and modeling-based research; examines and solves complex problems encountered in this process.
8)	Can work effectively in interdisciplinary and multidisciplinary teams, can lead such teams and develop solution approaches in complex situations; can work independently and take responsibility.
9)	Communicates verbally and in writing using a foreign language at least at the European Language Portfolio B2 General Level.
10)	Communicates the processes and results of his/her studies systematically and clearly in writing or orally in national and international environments within or outside that field.
11)	He/she knows the social, environmental, health, safety, legal dimensions of engineering practices as well as project management and business life applications and is aware of the limitations these impose on engineering practices.
12)	It observes social, scientific and ethical values in the stages of data collection, interpretation and announcement and in all professional activities.

Öğrenme Etkinliği ve Öğretme Yöntemleri

Ölçme ve Değerlendirme Yöntemleri ve Kriterleri

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

Assessment & Grading

Semester Requirements	Number of Activities	Level of Contribution
Homework Assignments	2	% 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	9	126
Homework Assignments	1	2	2
Midterms	1	2	2
Final	1	2	2
Total Workload			174