Syllabus ( CED 514 )
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Basic information
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Course title: |
Engineering Thermodynamics |
Course code: |
CED 514 |
Lecturer: |
Assoc. Prof. Dr. Murat Oluş ÖZBEK
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ECTS credits: |
7.5 |
GTU credits: |
3 (3+0+0) |
Year, Semester: |
1/2, Fall and Spring |
Level of course: |
Second Cycle (Master's) |
Type of course: |
Area Elective
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Language of instruction: |
English
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Mode of delivery: |
Face to face
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Pre- and co-requisites: |
none |
Professional practice: |
No |
Purpose of the course: |
To give the students the knowledge and capability to analyze, formulate, solve and design advanced thermal processes and problems in engineering using the fundamentals and principles of thermodynamics. |
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Learning outcomes
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Upon successful completion of this course, students will be able to:
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Formulate thermodynamic and thermal processes and produce models
Contribution to Program Outcomes
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Define and manipulate advanced concepts of Chemical Engineering
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Formulate and solve advanced engineering problems
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Design and conduct research projects independently
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Develop an awareness of continuous learning in relation with modern technology
Method of assessment
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Laboratory exercise/exam
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Solve model equations and analyze the results
Contribution to Program Outcomes
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Define and manipulate advanced concepts of Chemical Engineering
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Formulate and solve advanced engineering problems
Method of assessment
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Written exam
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Design thermal systems
Contribution to Program Outcomes
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Define and manipulate advanced concepts of Chemical Engineering
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Formulate and solve advanced engineering problems
Method of assessment
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Written exam
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Contents
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Week 1: |
Review of the basics of Thermodynamics |
Week 2: |
Pure substances and equations of state |
Week 3: |
Energy transfer |
Week 4: |
First law of thermodynamics |
Week 5: |
Second law of thermodynamics and class work |
Week 6: |
Entropiy and areas of application |
Week 7: |
Exergy |
Week 8: |
Thermodynamic properties |
Week 9: |
Gas mixtures |
Week 10: |
Mid Term Exam |
Week 11: |
Humidification and class work |
Week 12: |
Chemical reactions |
Week 13: |
Chemical and phase equilibria and class work |
Week 14: |
Compressible flow |
Week 15*: |
Advance applications |
Week 16*: |
Final Exam |
Textbooks and materials: |
Ders Notları lecture notes |
Recommended readings: |
Thermodynamics An Engineering Approach, Çengel, Boles. Chemical and Engineering Thermodynamics, Stanley I. Sandler
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* Between 15th and 16th weeks is there a free week for students to prepare for final exam.
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Assessment
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Method of assessment |
Week number |
Weight (%) |
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Mid-terms: |
10 |
40 |
Other in-term studies: |
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0 |
Project: |
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0 |
Homework: |
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0 |
Quiz: |
3,5,7,9,12 |
10 |
Final exam: |
16 |
50 |
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Total weight: |
(%) |
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Workload
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Activity |
Duration (Hours per week) |
Total number of weeks |
Total hours in term |
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Courses (Face-to-face teaching): |
3 |
14 |
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Own studies outside class: |
3 |
14 |
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Practice, Recitation: |
3 |
10 |
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Homework: |
0 |
0 |
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Term project: |
0 |
0 |
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Term project presentation: |
0 |
0 |
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Quiz: |
1 |
5 |
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Own study for mid-term exam: |
15 |
2 |
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Mid-term: |
2 |
1 |
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Personal studies for final exam: |
15 |
2 |
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Final exam: |
3 |
1 |
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Total workload: |
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Total ECTS credits: |
* |
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* ECTS credit is calculated by dividing total workload by 25. (1 ECTS = 25 work hours)
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