COURSE INFORMATON
Course Title Code Semester L+P Hour Credits ECTS
Air Conditioning and Refrigeration Technology * IST   101 1 3 3.5 5

Prerequisites and co-requisites
Recommended Optional Programme Components None

Language of Instruction Turkish
Course Level Short Cycle Programmes (Associate's Degree)
Course Type
Course Coordinator Lec. Ayşe ÇİÇEK
Instructors
Öğr. Gör.AYŞE ÇİÇEK1. Öğretim Grup:A
Öğr. Gör.AYŞE ÇİÇEK2. Öğretim Grup:A
 
Assistants
Goals
Air conditioning and refrigeration to define, measure and be able to grasp the concepts of heat and temperature, thermodynamic concepts and procedures to apply to comprehend and sample problems help, be able to understand the principles of heat transfer and heat transfer problems to solve simple
Content
Basic physical and chemical concepts, Unit systems Hidden and sensible heat, temperature and temperature measurement Pressure and pressure measurement, gas and gas laws, Work, power, energy, Types of heat transfer and heat transfer: Conduction, convection and radiation, Basic fluid properties, types of flow continuity and energy equation, Channel and pipe flow, The definition of refrigeration, cooling types, basic mechanical compression refrigeration cycle and its applications, and examples PH diagram showing the cooling cycles, Definition of air conditioning, types and applications, examples, Psychrometric Diagram.

Learning Outcomes
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Course's Contribution To Program
NoProgram Learning OutcomesContribution
12345
1
Explain the basic concepts in air conditioning and refrigeration field.
X
2
Clarify the relationship between the basic concepts of air conditioning and refrigeration field.
X
3
Know the working principles of air-conditioning and cooling systems components.
X
4
Describe the different methods and techniques using relevant disciplines in air conditioning and refrigeration systems in problem solving.
5
Explain the application areas of air-conditioning and refrigeration in daily life.
X
6
Offer a solution encountered in air conditioning systems in case of failure.
7
Employe the convenient ways and techniques in order to develop creative thinking and problem solving skills in air conditioning and refrigeration profession and the practice of the profession.
X
8
Use appropriate tools and equipment in accordance with the requirements of air conditioning and refrigeration the profession taking additional technical education.
9
Draw the projects of air-conditioning and refrigeration systems using scientific ways.
10
Make presentations and comments the data obtained to progress the air-conditioning and refrigeration systems using the laboratory effectively.
11
Apply new methods and techniques in air conditioning cooling power and control circuits
12
Take responsibility as individuals and team members in solving problems regarding air-conditioning and refrigeration fields .
13
Professional, technological and academic developments continuously monitors and have the life-long learning.
X
14
Knowledge and skills in the field have identified the problems and share solutions with experts and non-experts through oral and written communication proposals.
15
It uses information and communication technologies effectively.
16
It uses the English in the following of progressing of air conditioning and refrigeration fields and uses in the capability of professional communication.
17
It communicates with material suppliers and its practitioners preparing the professional drawings
18
It constantly improves itself in scientific, social, cultural and sporting fields in the direction of learning needs for personal development as well as career development.
19
Occupational health and safety would have national and universal sentiment expressed in the Act.
20
Obey the legality of technological applications and act in accordance with professional ethics.

Course Content
WeekTopicsStudy Materials _ocw_rs_drs_yontem
1 Basic physical and chemical concepts, Unit systems Reading related chapter
2 Latent and sensible heat, temperature, and temperature measurement Reading related chapter
3 Pressure and pressure measurement, gas and gas laws Reading related chapter
4 Work, power, energy Reading related chapter
5 Heat transferand types of heat transfer : Conduction, convection and radiation Reading related chapter
6 Types of heat transfer: Conduction, convection and radiation Reading related chapter
7 Basic fluid properties, types of flow continuity and energy equation Reading related chapter
8 Midterm
9 Basic fluid properties, types of flow continuity and energy equation Reading related chapter
10 The definition of refrigeration, cooling types, basic mechanical compression refrigeration cycle and its applications, and examples Reading related chapter
11 P-h diagram showing the cooling cycles Reading related chapter
12 Energy equations Reading related chapter
13 Definition of air conditioning, types and applications, examples Reading related chapter
14 Psychrometric Diagram Reading related chapter
15 Channel and pipe flow Reading related chapter
16-17 Final Exam

Recommended or Required Reading
Textbook
Additional Resources