Description of Individual Course Units
|
Offered By |
Graduate School of Natural and Applied Sciences |
Level of Course Unit |
Second Cycle Programmes (Master's Degree) |
Course Coordinator |
ASSOCIATE PROFESSOR MEHMET AKIF EZAN |
Offered to |
THERMODYNAMICS |
Course Objective |
Aims of the course are listed as |
Learning Outcomes of the Course Unit |
||||||||||
|
Mode of Delivery |
Face -to- Face |
Prerequisites and Co-requisites |
None |
Recomended Optional Programme Components |
None |
Course Contents |
|||||||||||||||||||||||||||||||||||||||||||||
|
Recomended or Required Reading |
Dincer, I., & Ezan, M. A. (2018). Heat storage: a unique solution for energy systems. Springer. |
Planned Learning Activities and Teaching Methods |
The learning and teaching methods are class-based lectures and tutorial sessions, and coding in the computer labs. Entire semester the courses will be delivered at the computer lab. All steps from transfering the physical problems into the mathematical models and analysing the models with computer-aided approaches will be discussed with the students. |
Assessment Methods |
||||||||||||||||||||||||||||
|
Further Notes About Assessment Methods |
None |
Assessment Criteria |
The assessing criteria involve one mid-term exam, several assignments, presentations, and a final exam. The mid-term and final exams will be computer-based in a laboratory. Students will transfer some physical problems to mathematical models in the midterm and final exams. At first, heat transfer calculations will be carried out to evaluate spatial and temporal temperature variations. Then, the thermodynamic-based energy, entropy, and exergy analyses will be conducted for several design parameters, and the results will be discussed. The codes will be developed in MATLAB software. The models will be reported on paper, and the codes and results will be reported on a computer. The students will upload all exam materials to a system that will be announced by the lecturer. Homeworks and presentations would also be on developing computer codes to resolve physical problems involving thermal energy storage. Homeworks and presentations would be prepared either induvial or with team members. The lecturer will define the aims, scope, and deadline of a homework during the semester. |
Language of Instruction |
Turkish |
Course Policies and Rules |
The courses will be taught in the computer laboratory to build the theoretical foundations and computer-aided analysis skills. Homeworks will be assigned to students every bi-weekly, and students should present the results after completing the tasks. It is expected that students will regularly attend all lectures throughout the semester. |
Contact Details for the Lecturer(s) |
Dokuz Eylül University Mechanical Engineering Department (Office number: Z38) |
Office Hours |
Monday & Tuesday: 1 pm - 3 pm |
Work Placement(s) |
None |
Workload Calculation |
||||||||||||||||||||||||||||||||||||||||
|
Contribution of Learning Outcomes to Programme Outcomes |
||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
|