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GRADUATE INSTITUTE of NATURAL and APPLIED SCIENCES / DEPARTMENT of ENERGY SYSTEMS ENGINEERING
MSc in Energy Systems Engineering
Course Catalog
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GRADUATE INSTITUTE of NATURAL and APPLIED SCIENCES / DEPARTMENT of ENERGY SYSTEMS ENGINEERING / MSc in Energy Systems Engineering
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ESML5115Thermodynamics In Energy Systems3+0+0ECTS:7.5
Year / SemesterFall Semester
Level of CourseSecond Cycle
Status Elective
DepartmentDEPARTMENT of ENERGY SYSTEMS ENGINEERING
Prerequisites and co-requisitesNone
Mode of Delivery
Contact Hours14 weeks - 3 hours of lectures per week
LecturerDr. Öğr. Üyesi Coşkun BAYRAM
Co-Lecturer
Language of instructionTurkish
Professional practise ( internship ) None
 
The aim of the course:
To investigate the efficiency and efficiency of energy systems, the power and cooling cycles, to consider the issue of climate, fuels and combustion. To develop general conclusions about the thermodynamics of high-velocity flow.
 
Programme OutcomesCTPOTOA
Upon successful completion of the course, the students will be able to :
PO - 1 : Can calculate and improve the efficiency of energy systems1,2,41,
PO - 2 : Can calculate and improve power and cooling cycles1,2,41,
PO - 3 : Can air conditioning1,2,41,
PO - 4 : Can develop correlations related to high-speed flow1,2,41,
CTPO : Contribution to programme outcomes, TOA :Type of assessment (1: written exam, 2: Oral exam, 3: Homework assignment, 4: Laboratory exercise/exam, 5: Seminar / presentation, 6: Term paper), PO : Learning Outcome

 
Contents of the Course
Thermodynamics of energy systems II. law analysis, gas fluid power cycles, steam power cycles, cooling cycles, gas-vapor mixtures and air conditioning, chemical reactions, chemical equilibrium and phase balance,high - speed flow thermodynamics.
 
Course Syllabus
 WeekSubjectRelated Notes / Files
 Week 1Thermodynamics of energy systems II. law analysis
 Week 2Gas fluid power cycles
 Week 3Steam power cycles
 Week 4Cooling cycles
 Week 5Relativity
 Week 6Carnot cycle, Otto and Diesel cycles
 Week 7Stirling and Ericson cycles
 Week 8Brayton cycle
 Week 9Midterm
 Week 10Carnot steam cycle, Rankine cycle, combined heat power generation
 Week 11Reverse Carnot cycle, steam compression refrigeration cycles
 Week 12Cooling systems
 Week 13Gas mixtures, gas-vapor mixtures and air conditioning
 Week 14Chemical reactions, chemical equilibrium and phase balance
 Week 15Thermodynamics of high-speed flow
 Week 16Final Exam
 
Textbook / Material
1Çengel, Y. A. , Boles, M. A. , (Tercümesi: Darbentli, T. ) , 2007, Mühendislik Yaklaşımıyla Termodinamik, Literatür Yayıncılık, 869 p.
 
Recommended Reading
 
Method of Assessment
Type of assessmentWeek NoDate

Duration (hours)Weight (%)
Mid-term exam 9 2 30
Homework/Assignment/Term-paper 13 8 20
End-of-term exam 16 2 50
 
Student Work Load and its Distribution
Type of workDuration (hours pw)

No of weeks / Number of activity

Hours in total per term
Yüz yüze eğitim 3 14 42
Sınıf dışı çalışma 3 14 42
Arasınav için hazırlık 6 8 48
Arasınav 3 1 3
Ödev 2 9 18
Dönem sonu sınavı için hazırlık 6 6 36
Dönem sonu sınavı 3 1 3
Total work load192