TÜRKÇE
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Information
| Unit | FACULTY OF ENGINEERING |
| TEXTILE ENGINEERING PR. | |
| Code | TMZ302 |
| Name | Heat Transfer |
| Term | 2016-2017 Academic Year |
| Semester | 6. Semester |
| Duration (T+A) | 3-0 (T-A) (17 Week) |
| ECTS | 4 ECTS |
| National Credit | 3 National Credit |
| Teaching Language | Türkçe |
| Level | Üniversite Dersi |
| Type | Normal |
| Label | C Compulsory |
| Mode of study | Yüz Yüze Öğretim |
| Catalog Information Coordinator | |
| Course Instructor |
Prof. Dr. RAMAZAN TUĞRUL OĞULATA
(Bahar)
(A Group)
(Ins. in Charge)
|
Course Goal / Objective
This course aims to give basic knowledge and concepts about heat transfer, learn the types of heat transfer and engineering applications.
Course Content
Definitions and Concepts. SI-Units. General Differantial Equation for Heat Conduction. One Dimensional Heat Conduction for Steady State. Heat Conduction on Plane, Cylindric and Spherical Walls. One Dimensional Heat conduction for Steady State in Heat Generated Solid Material.
Course Precondition
Yok
Resources
Notes
Course Learning Outcomes
| Order | Course Learning Outcomes |
|---|---|
| LO01 | Learns about the concepts of heat transfer. |
| LO02 | Learns the types of heat transfer and is able to make practical calculations in different fields |
| LO03 | Is able to calculate heat loss and gain required for textile air conditioning systems |
Relation with Program Learning Outcome
| Order | Type | Program Learning Outcomes | Level |
|---|---|---|---|
| PLO01 | - | Has sufficient background in the fields of Mathematics, Science and Textile Engineering | |
| PLO02 | - | Uses the knowledge obtained from the basic sciences and engineering in the field of textile engineering | |
| PLO03 | - | Does process analysis, Identifies problems, interprets and evaluates data in the field of textile engineering | |
| PLO04 | - | Selects and uses modern techniques and tools for engineering applications | |
| PLO05 | - | Has the skills of designing experiments, data collection, cognitive analysis and interpretation of the results | |
| PLO06 | - | Works effectively both individually and as a team member and takes responsibility | |
| PLO07 | - | Searches literature, has access to information, uses databases and other sources of information | |
| PLO08 | - | Recognizes the need of lifelong learning; follows developments in science and technology and renews self continuosly | |
| PLO09 | - | Has effective oral and written communication skills. | |
| PLO10 | - | Follows developments in the field in a foreign language, has good communication skills with colleagues. | |
| PLO11 | - | Uses information and communication technologies and softwares at a required level | |
| PLO12 | - | Defines learning requirements in scientific, social, cultural and artistic areas and improves himself/herself accordingly. | |
| PLO13 | - | Has the professional and ethical responsibility. | |
| PLO14 | - | Has the necessary awareness on the fields of occupational health and safety, legal side of engineering applications and environmental health. | |
| PLO15 | - | Has required competence in project management, entrepreneurship and innovation. |
Week Plan
| Week | Topic | Preparation | Methods |
|---|---|---|---|
| 1 | Description of heat transfer, heat transfer forms, steady and transient regime definitions, | Reading course notes and reference books | |
| 2 | Heat transfer (conduction) Fourier´s law | Reading course notes and reference books | |
| 3 | Heat transfer coefficient, solid, liquid and gases, heat conduction, boundary conditions | Reading course notes and reference books | |
| 4 | Steady-state heat conduction, plane, cylindrical and spherical walls, heat conduction | Reading course notes and reference books | |
| 5 | Heat transfer fins, fins coefficients of performance | Reading course notes and reference books | |
| 6 | Transient heat conduction | Reading course notes and reference books | |
| 7 | Example of the problems of heat conduction | Reading course notes and reference books | |
| 8 | Midterm exam | ||
| 9 | Heat transfer (convection) input, dimensionless numbers, Re, Nu, Pe, Pr, Gr, St, Gz, dimensionless numbers Ra, Forced convection | Reading course notes and reference books | |
| 10 | Free convection, heat transport (convection) problems related to the sample | Reading course notes and reference books | |
| 11 | Convection heat transfer (convection) problems related to the sample | Reading course notes and reference books | |
| 12 | Heat radiation definition, description and heat transfer | Reading course notes and reference books | |
| 13 | Sample problems related to heat radiation | Reading course notes and reference books | |
| 14 | Sample problems related to heat radiation | Reading course notes and reference books | |
| 15 | Repeating lecture notes | Reading course notes and reference books | |
| 16 | Final exams | ||
| 17 | Final exams |
Assessment (Exam) Methods and Criteria
| Assessment Type | Midterm / Year Impact | End of Term / End of Year Impact |
|---|---|---|
| 1. Midterm Exam | 100 | 40 |
| General Assessment | ||
| Midterm / Year Total | 100 | 40 |
| 1. Final Exam | - | 60 |
| Grand Total | - | 100 |
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 | 4 | 56 |
| Assesment Related Works | |||
| Homeworks, Projects, Others | 0 | 0 | 0 |
| Mid-term Exams (Written, Oral, etc.) | 1 | 5 | 5 |
| Final Exam | 1 | 5 | 5 |
| Total Workload (Hour) | 108 | ||
| Total Workload / 25 (h) | 4,32 | ||
| ECTS | 4 ECTS | ||