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SDÜ Education Information System Course Content
Programme
Graduate School of Natural and Applied Sciences Mechanical Engineering
Course Information
Course Unit Code
Course Unit Title
Credit Theoretic
Credit Pratic
Credit Lab/A
Credit Total
Credit Ects
Semester
01MAK5158
Enrji Conversion Systems
3.00
0.00
0.00
3.00
6.00
1
Course Information
Language of Instruction
Turkish
Type of Course Unit
Elective
Course Coordinator
Professor Osman ĘPEK
Course Instructors
1-Osman ĘPEK
Course Assistants
 
Course Aims
The energy crisis, Energy Consumption, Units of energy and power, Solar radiation, The first and second law of thermodynamics, the Carnot cycle, the steam engine and Rankine cycle, Entropy, Gas turbine and Combined cycles, Nuclear Energy Fission, fusion, solar energy, Water, Wind and Geothermal Power, Energy usage and the Economy
Course Goals
Introduction to energy sources , understanding of theory of energy production, idroduction of energy production system, definition of energy production and cost relate, undetstandig of energy production and envieronment interaction...
Learning Outcomes of The Course Unit
1. Inyroduction to enegy prouction system
2. Having information of energy sources
3.Having information of Definition to Energy production types and process
4. Introduction to essential statutes and equations anad applications tis statutes and equations
5. Introduction to can pick out of differences of adjacents of energy production systems
6. Introduction to essential tools of using of energy production systems
7. Analyzing of energy production systems
8. Using a software of analysing of energy production systems
9. Having information of energy production and enery cost
10. Having information of relations of energy and enviorenment
Course Contents
Energy sources and the general situation in the country, Energy Conversion Systems,Energy Production Systems , Basic Principles of Conversion,Fossil Origin Energy Resources, Poses and Thermal Power Plants, Thermal Energy Production Systems,
Basic Thermodynamics Principles,Renewable Energy Resources, Solar energy and Principles of the Usage,
Geothermal energy and principles of the energy production
Wind energy and the basic principles of energy production, hydrogen energy and principles of the usage
Wave energy, Nuclear Energy
Magnetic Energy, Tidal Energy
Energy Cost and the general situation of the countries, efficiency of the energy production
The relationship between energy and the environment
Planning for the future of energy production.



Prerequisities and Co-requisities Courses
 
Recommended Optional Programme Components
 
Mode Of Delivery
 
Level of Course Unit
 
Assessment Methods and Criteria
ECTS / Table Of Workload (Number of ECTS credits allocated)
Studies During Halfterm
Number
Co-Efficient
Activity
Number
Duration
Total
Visa
1
50
Course Duration (Excluding Exam Week)
14
4
56
Quiz
0
0
Time Of Studying Out Of Class
14
3
42
Homework
2
50
Homeworks
2
15
30
Attendance
0
0
Presentation
0
0
0
Application
0
0
Project
0
0
0
Lab
0
0
Lab Study
0
0
0
Project
0
0
Field Study
0
0
0
Workshop
0
0
Visas
1
15
15
Seminary
0
0
Finals
1
25
25
Field study
0
0
Workload Hour (30)
30
TOTAL
100
Total Work Charge / Hour
168
The ratio of the term to success
40
Course's ECTS Credit
6
The ratio of final to success
60
 
TOTAL
100
 
Recommended or Required Reading
Textbook
Advanced Engineering Analysis
ASM handbook of Engineering Mathematics
Vector Calculus
Additional Resources
Vector and Tensor Analysis
Introduction Matrix Analysis
The Theory of Matrix
Method of Applied Mathematics
Mathematical Physics
An introduction Heat transfer
Engineering Heat transfer
Introduction Fluid Mechanics
Vector Mechanics for Engineering
Engineering Mechanics
Static
Engineering Dynamics
Continuum Mechanics
Mechanical Metallurgy
Mathematical Theory and Elasticity
Basic Equations of Engineering Science
Thermodynamics for engineers
Engineering Thermodynamics
Introduction to thermodynamics
Fundamental of Classical Thermodynamics
Advanced Engineering Analysis
ASM handbook of Engineering Mathematics
Vector Calculus
Vector and Tensor Analysis
Introduction Matrix Analysis
The Theory of Matrix
Method of Applied Mathematics
Mathematical Physics
An introduction Heat transfer
Engineering Heat transfer
Introduction Fluid Mechanics
Vector Mechanics for Engineering
Engineering Mechanics
Static
Engineering Dynamics
Continuum Mechanics
Mechanical Metallurgy
Mathematical Theory and Elasticity
Basic Equations of Engineering Science
Thermodynamics for engineers
Engineering Thermodynamics
Introduction to thermodynamics
Fundamental of Classical Thermodynamics
Material Sharing
Documents
 
Assignments
 
Exams
 
Additional Material
 
Planned Learning Activities and Teaching Methods
Lectures, Practical Courses, Presentation, Seminar, Project, Laboratory Applications (if necessary)
Work Placements
As with any other educational component, credits for work placements are only awarded when the learning outcomes have been achieved and assessed. If a work placement is part of organised mobility (such as Farabi and Erasmus), the Learning Agreement for the placement should indicate the number of credits to be awarded if the expected learning outcomes are achieved.
Program Learning Outcomes
No
Course's Contribution to Program
Contribution
Course Content