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Syllabus ( CED 514 )


   Basic information
Course title: Engineering Thermodynamics
Course code: CED 514
Lecturer: Assoc. Prof. Dr. Murat Oluş ÖZBEK
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
Language of instruction: English
Mode of delivery: Face to face
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.
   Learning outcomes Up

Upon successful completion of this course, students will be able to:

  1. Formulate thermodynamic and thermal processes and produce models

    Contribution to Program Outcomes

    1. Define and manipulate advanced concepts of Chemical Engineering
    2. Formulate and solve advanced engineering problems
    3. Design and conduct research projects independently
    4. Develop an awareness of continuous learning in relation with modern technology

    Method of assessment

    1. Laboratory exercise/exam
  2. Solve model equations and analyze the results

    Contribution to Program Outcomes

    1. Define and manipulate advanced concepts of Chemical Engineering
    2. Formulate and solve advanced engineering problems

    Method of assessment

    1. Written exam
  3. Design thermal systems

    Contribution to Program Outcomes

    1. Define and manipulate advanced concepts of Chemical Engineering
    2. Formulate and solve advanced engineering problems

    Method of assessment

    1. Written exam
   Contents Up
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
  * Between 15th and 16th weeks is there a free week for students to prepare for final exam.
Assessment Up
Method of assessment Week number Weight (%)
Mid-terms: 10 40
Other in-term studies: 0
Project: 0
Homework: 0
Quiz: 3,5,7,9,12 10
Final exam: 16 50
  Total weight:
(%)
   Workload Up
Activity Duration (Hours per week) Total number of weeks Total hours in term
Courses (Face-to-face teaching): 3 14
Own studies outside class: 3 14
Practice, Recitation: 3 10
Homework: 0 0
Term project: 0 0
Term project presentation: 0 0
Quiz: 1 5
Own study for mid-term exam: 15 2
Mid-term: 2 1
Personal studies for final exam: 15 2
Final exam: 3 1
    Total workload:
    Total ECTS credits:
*
  * ECTS credit is calculated by dividing total workload by 25.
(1 ECTS = 25 work hours)
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