GAZI UNIVERSITY INFORMATION PACKAGE - 2019 ACADEMIC YEAR

COURSE DESCRIPTION
Thermodynamics I/OM 251
Course Title: Thermodynamics I
Credits 3 ECTS 5
Course Semester 3 Type of The Course Compulsory
COURSE INFORMATION
 -- (CATALOG CONTENT)
 -- (TEXTBOOK)
 -- (SUPPLEMENTARY TEXTBOOK)
 -- (PREREQUISITES AND CO-REQUISITES)
 -- LANGUAGE OF INSTRUCTION
  Turkish
 -- COURSE OBJECTIVES
 -- COURSE LEARNING OUTCOMES
To be able to define concepts related to thermodynamics
Explain the laws of thermodynamics
Be able to analyze systems related to energy and transformations
To be able to analyze thermal systems
To solve engineering problems related to thermal systems

 -- MODE OF DELIVERY
  Face to face-Lecture, Problem solving, Question and answer
 --WEEKLY SCHEDULE
1. Week  General information, units and definitions, system, types of energy, properties of system, state and equilibrium, the zero law of thermodynamics, pres
2. Week  Phase changes of pure metal, property diagrams and tables, problem solving, properties of pure substance
3. Week  Ideal gas laws, state changes
4. Week  Specific heat, Internal energy, enthalpy and specific heat of ideal gases, Specific heat of liquid and solids, Real gases, Problem solutions
5. Week  1st law of thermodynamics, closed systems, problem solving
6. Week  Application of 1st law of thermodynamics to open systems, Continuous flow open systems
7. Week  Thermodynamics II. Law, Kelvin-Planck and Clasius expressions, Reversible and irreversible state changes, Thermal efficiency and efficiency, Carnot cy
8. Week  Claisus inequality, Entropy, Entropy increase principle, Entropy related property diagrams, Midterm Exam
9. Week  T ds relations, Entropy changes of pure substances and ideal gases, problem solutions, the third law of thermodynamics
10. Week  Gas fluid power cycles (Otto, Diesel, Karma, Ericson, Stirling cycles)
11. Week  Brayton cycle, Intermediate heating, Intercooling and Brayton cycle with Regenerator
12. Week  Cooling Cycle, Heat Pump and Cooling Machine, Ideal and Real Steam Compressed Cooling Cycle, Coolant Selection
13. Week  Chemical Reactions and combustion, fuels, formation enthalpies, reaction equations, air fuel ratio, air excess coefficient
14. Week  Constant volume combustion, Lower-upper thermal value, Adiabatic flame temperature
15. Week  
16. Week  
 -- TEACHING and LEARNING METHODS
 -- ASSESSMENT CRITERIA
 
Quantity
Total Weighting (%)
 Midterm Exams
1
30
 Assignment
1
10
 Application
0
0
 Projects
0
0
 Practice
0
0
 Quiz
2
20
 Percent of In-term Studies  
60
 Percentage of Final Exam to Total Score  
40
 -- WORKLOAD
 Activity  Total Number of Weeks  Duration (weekly hour)  Total Period Work Load
 Weekly Theoretical Course Hours
14
3
42
 Weekly Tutorial Hours
14
1
14
 Reading Tasks
0
 Searching in Internet and Library
10
2
20
 Material Design and Implementation
0
 Report Preparing
10
3
30
 Preparing a Presentation
0
 Presentation
0
 Midterm Exam and Preperation for Midterm Exam
1
8
8
 Final Exam and Preperation for Final Exam
1
11
11
 Other (should be emphasized)
0
 TOTAL WORKLOAD: 
125
 TOTAL WORKLOAD / 25: 
5
 Course Credit (ECTS): 
5
 -- COURSE'S CONTRIBUTION TO PROGRAM
NO
 PROGRAM LEARNING OUTCOMES
1
2
3
4
5
1Capability of obtaining adequate knowledge in mathematics, science and engineering subjects in the automotive field; applying theoretical and practical knowledge for modeling and solving engineering problems in this field.X
2Capability of formulation and solving engineering problems; for this purpose selecting and appliying the appropriate analysis and modeling methods.X
3Capability of evaluation of engine and vehicle design projects, designing any engine and vehicle parts, to bring prototype and series production stage.X
4Capability of design of complex systems for specific needs, component or process in whole or in part.X
5Capability of development of modern methods and tools necessary for engineering applications, selection and effective use and to use of information technologies effectively.X
6Capability of analysis of the engineering problems and for the solution designing and performing experiments, collecting data, analyzing and interpretting the results.X
7Capability of work in team and individual and ability to work effectively with other disciplines.X
8Capability of effective communication both verbal and written in Turkish and at least one foreign language konwledgeX
9Capability of access to information in the framework of lifelong learning, to follow the developments in science and technology and self-improvement.X
10Resposibility of professional and ethical liability.X
11Awareness of leadership, entrepreneurship, innovation and sustainable development in business life.X
12Being competent in the engineering applications, legislations, legal consequences and in the field of occupational health and safety.X
13Capability of research and application in the subjects of noise, environment and emissions.X
14Capability of making education in the field.X
 -- NAME OF LECTURER(S)
   (Prof. Dr. H. Serdar Yücesu)
 -- WEB SITE(S) OF LECTURER(S)
   (https://websitem.gazi.edu.tr/site/yucesu)
 -- EMAIL(S) OF LECTURER(S)
   (yucesu@gazi.edu.tr , hsyucesu@gmail.com)