Week
|
Topics
|
Study Metarials
|
1
|
Refrigerator basic mechanical circuit elements. Vapor compression refrigeration cycle.
|
R1
|
2
|
Refrigerator electrical circuits and used elements.
|
R1
|
3
|
Structure, features, and electrical circuit diagrams of no-frost refrigerators.
|
R1
|
4
|
Defrost and defrost types. Types of heaters used in new technology refrigerators.
|
R1
|
5
|
Sensors and electrical circuit diagrams used in microprocessor controlled refrigerators.
|
R1 , SR1
|
6
|
Vacuuming and gas charging.
|
R1
|
7
|
Electrical and mechanical faults in refrigerators.
|
R1 , SR1
|
8
|
Working technique and types of air conditioners.
|
R1
|
9
|
Air conditioner discovery and installation.
|
R1 , SR1
|
10
|
Mechanical structure of air conditioners and mechanical circuit elements.
|
R1
|
11
|
Electrical structure and electrical components of air conditioners.
|
R1 , SR1
|
12
|
Gas collection, vacuum and gas charging.
|
R1
|
13
|
Detecting electrical and mechanical faults of air conditioners.
|
R1
|
14
|
Periodic maintenance of air conditioners.
|
R1
|
Prerequisites
|
-
|
Language of Instruction
|
Turkish
|
Responsible
|
Lecturer Murat ALTUN
|
Instructors
|
-
|
Assistants
|
Lecturer Emrah ŞAHİN
|
Resources
|
R1- Refrigerators and Air Conditioners Lecture Notes, Lecturer Murat ALTUN
|
Supplementary Book
|
SR1-Applied Air Conditioning Technique , T.C İndustry and Trade Ministry KOSGEB Publications Publication
No: 21 - Nuri ÖZKOL Refrigerators and Air Conditioners Service Catalogs of Manufacturers
|
Goals
|
Refrigerators and air conditioners installation, periodic maintenance, diagnostics and repair
|
Content
|
Refrigerator basic mechanical circuit elements. Vapor compression refrigeration cycle. Refrigerator electrical circuits and used components. Structure, features, and electrical circuit diagrams of no-frost refrigerators. Types of heaters used in new technology refrigerators. Sensors and electrical circuit diagrams used in microprocessor controlled refrigerators. Vacuum and gas charging. Electrical and mechanical faults in refrigerators. Working technique and types of air conditioners. Discovery and installation of air conditioners. Mechanical structure of air conditioners and mechanical circuit elements. Electrical structure and electrical components of air conditioners. Detecting electrical and mechanical faults of air conditioners. Periodic maintenance of air conditioners.
|
|
Program Learning Outcomes |
Level of Contribution |
1
|
Learns the basic laws and principles of Electrical and Electronics Technology and uses them to solve problems in the field.
|
-
|
2
|
Makes the calculations required by the profession.
|
-
|
3
|
Makes the installation of household devices and devices to perform the first work and explain the use of devices.
|
4
|
4
|
comprehend the working principles of electrical devices.
|
4
|
5
|
Read circuit diagrams of electrical devices and interpret flow diagrams.
|
2
|
6
|
Explains the structure and working principles of electrical-electronic components and mechanical components used in household appliances and makes robustness checks.
|
4
|
7
|
Detects and removes faults that may occur in electrical devices.
|
4
|
8
|
Uses the necessary measurement instruments, tools and equipment for the installation and elimination of malfunctions of household appliances.
|
3
|
9
|
Explains the structure and operation of electronic program cards used in household devices and makes fault detection.
|
2
|
10
|
Prepare projects and presentations by using Computer Aided Design Programs. Use Office Program Components and internet search engines, written and oral communication and professional foreign language proficiency.
|
-
|
11
|
Decides to work independently, makes interdisciplinary and interdisciplinary teamwork, has professional ethical values and quality and safety awareness.
|
-
|
12
|
Becomes an individual who adopts the importance of lifelong learning, improves himself / herself by following scientific and technological developments and has the consciousness of following global problems.
|
-
|