Learning Outcomes |
PO |
MME |
The students who succeeded in this course: |
|
|
LO-1 |
Can Define the concepts of thermodynamics. |
PO-14 Have information about the structure, maintenance and repair of Renewable Energy Resources. Explains the method of electrical energy produced with renewable energy.
|
Examination |
LO-2 |
Can Define Heat - business concepts. |
PO-14 Have information about the structure, maintenance and repair of Renewable Energy Resources. Explains the method of electrical energy produced with renewable energy.
|
Examination |
LO-3 |
Can Explain the thermodynamic properties of pure substances. |
PO-14 Have information about the structure, maintenance and repair of Renewable Energy Resources. Explains the method of electrical energy produced with renewable energy.
|
Examination |
LO-4 |
Can Know the ideal gas equation and formulate changes of state of ideal gases. |
PO-14 Have information about the structure, maintenance and repair of Renewable Energy Resources. Explains the method of electrical energy produced with renewable energy.
|
Examination |
LO-5 |
Can Explain law of thermodynamics |
PO-14 Have information about the structure, maintenance and repair of Renewable Energy Resources. Explains the method of electrical energy produced with renewable energy.
|
Examination |
PO: Programme Outcomes MME:Method of measurement & Evaluation |
Course Contents |
Basic concepts and definitions. Properties of pure substances. Equations of state. Work and heat interactions. The first law of thermodynamics. Internal energy and enthalpy. The second law of thermodynamics. Entropy. Reversible and irreversible processes. Thermodynamic analysis of processes, the third law of thermodynamics. Pure substances, ideal gases, gas mixtures, and atmospheric air for an ideal property relations will be examined. Steam power cycles, refrigeration cycles, with spark-ignition and compression-ignition engines and turbine performance and energy efficiency cycles. |
Weekly Course Content |
Week |
Subject |
Learning Activities and Teaching Methods |
1 |
Basic Thermodynamic concepts and applications |
Lecture, Question and Answer and problem solving |
2 |
Basic Thermodynamic concepts and applications |
Lecture, Question and Answer and problem solving |
3 |
Thermodynamic properties and problems of pure substance |
Lecture, Question and Answer and problem solving |
4 |
Closed systems and the First Law of Thermodynamics |
Lecture, Question and Answer and problem solving |
5 |
Open systems and the First Law of Thermodynamics |
Lecture, Question and Answer and problem solving |
6 |
Thermodynamics II. Law and Applications |
Lecture, Question and Answer and problem solving |
7 |
Thermodynamics II. Law and Applications |
Lecture, Question and Answer and problem solving |
8 |
mid-term exam |
|
9 |
Entropy and calculations |
Lecture, Question and Answer and problem solving |
10 |
Exergy and availability |
Lecture, Question and Answer and problem solving |
11 |
Gas fluid power cycles |
Lecture, Question and Answer and problem solving |
12 |
Gas fluid power cycles |
Lecture, Question and Answer and problem solving |
13 |
Steam cycles |
Lecture, Question and Answer and problem solving |
14 |
Steam cycles |
Lecture, Question and Answer and problem solving |
15 |
Refrigeration cycle |
Lecture, Question and Answer and problem solving |
16 |
final exam |
|
Recommend Course Book / Supplementary Book/Reading |
1 |
Yamankaradeniz R.(2001). Mühendislik Termodinamiğinin Temelleri. Vipaş Yayınevi. |
2 |
Öztürk A. ve Kılıç A. (1998). Çözümlü Problemlerle Termodinamik. Çağlayan Basımevi. |
Required Course instruments and materials |
Course book, help books and other resources. |