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Information
| Unit | FACULTY OF ENGINEERING |
| AUTOMOTIVE ENGINEERING PR. | |
| Code | OMZ417 |
| Name | Applied Thermodynamics |
| Term | 2020-2021 Academic Year |
| Semester | 7. Semester |
| Duration (T+A) | 3-0 (T-A) (17 Week) |
| ECTS | 4 ECTS |
| National Credit | 3 National Credit |
| Teaching Language | Türkçe |
| Level | Lisans Dersi |
| Type | Normal |
| Label | E Elective |
| Mode of study | Uzaktan Öğretim |
| Catalog Information Coordinator | Prof. Dr. ALİ KESKİN |
| Course Instructor |
The current term course schedule has not been prepared yet.
|
Course Goal / Objective
To teach students the power and cooling cycles, To show the thermal design basics of engineering systems, To develop student s analysis, analysis, application and communication skills in this field
Course Content
Definition of entropy, Reversible continuous flow work, Isentropic processes, Thermodynamic cycles, Introduction to cooling, Exergy
Course Precondition
Resources
Notes
Course Learning Outcomes
| Order | Course Learning Outcomes |
|---|---|
| LO01 | Understanding the concept of entropy |
| LO02 | Information about the cycles used in automotive engineering |
| LO03 | Learn advantages and disadvantages by comparing power cycles |
| LO04 | Information will be gained about cooling cycles used in vehicles |
Relation with Program Learning Outcome
| Order | Type | Program Learning Outcomes | Level |
|---|---|---|---|
| PLO01 | Bilgi - Kuramsal, Olgusal | Sufficient knowledge of mathematics, science and subjects specific to the automotive engineering discipline; the ability to use theoretical and applied knowledge in these areas to solve complex engineering problems. | 2 |
| PLO02 | Beceriler - Bilişsel, Uygulamalı | Ability to identify, formulate and solve complex engineering problems in the field of Automotive Engineering; ability to select and apply appropriate analysis and modeling methods for this purpose. | 1 |
| PLO03 | Beceriler - Bilişsel, Uygulamalı | In Automotive Engineering, the ability to design a complex system, process, device or product to meet specific requirements under realistic constraints and conditions; the ability to apply modern design methods for this purpose. | |
| PLO04 | Beceriler - Bilişsel, Uygulamalı | Ability to select and use modern techniques and tools required for the analysis and solution of complex problems encountered in Automotive Engineering applications; ability to use information technologies effectively. | |
| PLO05 | Beceriler - Bilişsel, Uygulamalı | Ability to design and conduct experiments, collect data, analyze and interpret results to investigate complex engineering problems or discipline-specific research topics in the field of Automotive Engineering. | |
| PLO06 | Yetkinlikler - Bağımsız Çalışabilme ve Sorumluluk Alabilme Yetkinliği | Ability to work effectively in intra-disciplinary (Automotive Engineering) and multi-disciplinary teams; ability to work individually. | |
| PLO07 | Yetkinlikler - Bağımsız Çalışabilme ve Sorumluluk Alabilme Yetkinliği | Ability to communicate effectively verbally and in writing; knowledge of at least one foreign language; ability to write effective reports in the field of Automotive Engineering and understand written reports, prepare design and production reports, make effective presentations, and give and receive clear and understandable instructions. | |
| PLO08 | Yetkinlikler - Öğrenme Yetkinliği | Awareness of the necessity of lifelong learning; ability to access information in the field of Automotive Engineering, to follow developments in science and technology and to constantly renew oneself. | |
| PLO09 | Yetkinlikler - İletişim ve Sosyal Yetkinlik | Acting in accordance with ethical principles, professional and ethical responsibility in the field of Automotive Engineering, and knowledge of the standards used in engineering practice. | |
| PLO10 | Yetkinlikler - Alana Özgü Yetkinlik | Knowledge about business life practices such as project management, risk management and change management in the field of Automotive Engineering; awareness about entrepreneurship and innovation; knowledge about sustainable development. | |
| PLO11 | Yetkinlikler - Alana Özgü Yetkinlik | Knowledge about the universal and societal effects of automotive engineering applications on health, environment and safety and the contemporary problems reflected in the automotive engineering field; awareness of the legal consequences of automotive engineering solutions. |
Week Plan
| Week | Topic | Preparation | Methods |
|---|---|---|---|
| 1 | Definition of Entropy, entropy balance in closed and open systems | Reference Books and Lecture Notes | |
| 2 | T ds relations, entropy change of pure substances | Reference Books and Lecture Notes | |
| 3 | Isentropic processes | Reference Books and Lecture Notes | |
| 4 | Reversible steady flow work, minimizing the compressor work, isentropic efficiencies of steady flow devices | Reference Books and Lecture Notes | |
| 5 | Classification of thermodynamic cycles, gas power cycles, air-standard assumptions | Reference Books and Lecture Notes | |
| 6 | Otto, Diesel, Sterling cycles | Reference Books and Lecture Notes | |
| 7 | Ericson and Brayton cycles | Reference Books and Lecture Notes | |
| 8 | Mid-Term Exam | Reference Books and Lecture Notes | |
| 9 | Turbojet, turbofan and turboprob engines | Reference Books and Lecture Notes | |
| 10 | Vapor and combined power cycles, Rankine cycle | Reference Books and Lecture Notes | |
| 11 | Ideal reheat Rankine cycle and ideal regenerative Rankine cycle | Reference Books and Lecture Notes | |
| 12 | An introduction to refrigeration, ideal and actual vapor compression refrigeration cycles, refrigerants, heat pump systems | Reference Books and Lecture Notes | |
| 13 | Innovative vapor compression refrigeration systems | Reference Books and Lecture Notes | |
| 14 | Gas refrigeration cycles and absorption refrigeration cycles | Reference Books and Lecture Notes | |
| 15 | Exergy | Reference Books and Lecture Notes | |
| 16 | Term Exams | Reference Books and Lecture Notes | |
| 17 | Term Exams | Reference Books and Lecture Notes |
Student Workload - ECTS
| Works | Number | Time (Hour) | Workload (Hour) |
|---|---|---|---|
| Course Related Works | |||
| Class Time (Exam weeks are excluded) | 14 | 3 | 42 |
| Out of Class Study (Preliminary Work, Practice) | 14 | 3 | 42 |
| Assesment Related Works | |||
| Homeworks, Projects, Others | 0 | 0 | 0 |
| Mid-term Exams (Written, Oral, etc.) | 1 | 7 | 7 |
| Final Exam | 1 | 9 | 9 |
| Total Workload (Hour) | 100 | ||
| Total Workload / 25 (h) | 4,00 | ||
| ECTS | 4 ECTS | ||