PAÜ .:. Eğitim Öğretim Bilgi Sistemi

Course Information Course Learning Outcomes Course's Contribution To Program ECTS Workload Course Details

COURSE INFORMATION

Course Code	Course Title	L+P Hour	Semester	ECTS
MENG 458	AIR CONDITIONING	2 + 0	7th Semester	3,5

COURSE DESCRIPTION

Course Level	Bachelor's Degree
Course Type	Elective
Course Objective	It is important to check the internal conditions of the volumes. In addition controlling of temperature and humidity, also the efficiency and effectiveness in many industrial applications are also important. Glazing with the students the basic concepts and applications are given throughout the course. Courses are aimed to get the students to problem solving and implementing character.
Course Content	Introduction to refrigeration, application areas, the basic concepts, the concepts of temperature and humidity, sensible and latent heat of moist air, mass transfer, Fick's Law, mass transfer coefficient, laminar and turbulent boundary layer analysis of heat and mass transfer, dimensionless numbers of mass transfer, mass and heat transfer for natural convection, the psychrometric diagram and various air changes, adiabatic humidification, mixtures and showing in the diagram, heating and cooling processes and showing in the diagram, cooling towers and tower efficiency, heat and mass transfer on cooling surfaces, summer and winter air-conditioning cycles and their psychometric shown in the diagram, determine the project requirements, determination of the cooling and heating loads, channel calculations for acclimatization, the pressure drops and equipment selection.
Prerequisites	No the prerequisite of lesson.
Corequisite	No the corequisite of lesson.
Mode of Delivery	Face to Face

COURSE LEARNING OUTCOMES

Ability to detect suitable indoor air conditions (temperature, humidity and ventilation rate) for people, noise, pressure drops and energy consumption. Designing and thermal analysing of buildings for heating and cooling loads. Choosing coils for heating and cooling. Designing of HVAC systems for buildings. Designing of air distribution systems using the channel design methods. Choosing components for air distribution system.

COURSE'S CONTRIBUTION TO PROGRAM

	PO 01	PO 02	PO 03	PO 04	PO 05	PO 06	PO 07	PO 08	PO 09	PO 10	PO 11
LO 001	5	4	3	4	3	3	3	3	3	3	4
Sub Total	5	4	3	4	3	3	3	3	3	3	4
Contribution	5	4	3	4	3	3	3	3	3	3	4

ECTS ALLOCATED BASED ON STUDENT WORKLOAD BY THE COURSE DESCRIPTION

Activities	Quantity	Duration (Hour)	Total Work Load (Hour)
Course Duration (14 weeks/theoric+practical)	14	2	28
Hours for off-the-classroom study (Pre-study, practice)	14	2	28
Mid-terms	1	15	15
Final examination	1	20	20
Total Work Load ECTS Credit of the Course			91 3,5

COURSE DETAILS

Select Year

	Course Term	No	Instructors
Details	2015-2016 Spring	2	RASİM KARABACAK
Details	2014-2015 Spring	2	RASİM KARABACAK
Details	2013-2014 Spring	2	RASİM KARABACAK
Details	2010-2011 Spring	2	RASİM KARABACAK

Course Details

Course Code	Course Title	L+P Hour	Course Code	Language Of Instruction	Course Semester
MENG 458	AIR CONDITIONING	2 + 0	2	Turkish	2015-2016 Spring

Course Coordinator	E-Mail	Phone Number	Course Location	Attendance
			MUH A02153	%70

Goals		It is important to check the internal conditions of the volumes. In addition controlling of temperature and humidity, also the efficiency and effectiveness in many industrial applications are also important. Glazing with the students the basic concepts and applications are given throughout the course. Courses are aimed to get the students to problem solving and implementing character.
Content		Introduction to refrigeration, application areas, the basic concepts, the concepts of temperature and humidity, sensible and latent heat of moist air, mass transfer, Fick's Law, mass transfer coefficient, laminar and turbulent boundary layer analysis of heat and mass transfer, dimensionless numbers of mass transfer, mass and heat transfer for natural convection, the psychrometric diagram and various air changes, adiabatic humidification, mixtures and showing in the diagram, heating and cooling processes and showing in the diagram, cooling towers and tower efficiency, heat and mass transfer on cooling surfaces, summer and winter air-conditioning cycles and their psychometric shown in the diagram, determine the project requirements, determination of the cooling and heating loads, channel calculations for acclimatization, the pressure drops and equipment selection.

Topics

Weeks	Topics
1	Introduction to refrigeration, applications, basic concepts, the concepts of temperature and humidity.
2	Sensible and latent heat of moist air, sample applications.
3	Mass transfer, Fick's Law, the mass transfer coefficient and the sample applications.
4	Investigation of heat and mass transfer in laminar and turbulent boundary layers, mass migration dimensionless numbers.
5	Sample applications.
6	Natural convection mass and heat transfer and its application.
7	Psychrometric diagram and various weather changes. Adiabatic humidification, blends, and the diagrams, examples
8	Heating and cooling processes and their demonstration of the psychrometric diagram. Air conditioning of the air on the laboratory application.
9	Cooling towers and towers effectiveness.
10	Heat and mass transfer on cooler surfaces.
11	Summer and winter air-conditioning cycles and their demonstration of the psychrometric diagram, determine the conditions of the project.
12	Determination of the cooling and heating loads.
13	Examples of air-conditioning in summer and winter seasons.
14	Calculation of air conditioning duct size, pressure drops and selection of devices.

Materials

Materials are not specified.

Resources

Resources	Resources Language
Ders notları.	Türkçe
Howell, R.H., Sauer, H.J., Coad W.J.: “ Principles of Heating, Ventilating and Air Conditioning”, ASHRAE, 1998.	English
McQuiston, F.C., Parker, J.D.: “Heating, Ventilating and Air Conditioning- Analysis and Design”, John Wiley, 1994.	English
Kuehn, T.H., Ramsey, J.W., Threlkeld, J.L.: “Thermal Environment Engineering”, Prentice Hall, 1998.	English
ASHRAE Handbook: “Fundamentals”, 2001.	English
Ders notları.	Türkçe
Howell, R.H., Sauer, H.J., Coad W.J.: “ Principles of Heating, Ventilating and Air Conditioning”, ASHRAE, 1998.	English
McQuiston, F.C., Parker, J.D.: “Heating, Ventilating and Air Conditioning- Analysis and Design”, John Wiley, 1994.	English
Kuehn, T.H., Ramsey, J.W., Threlkeld, J.L.: “Thermal Environment Engineering”, Prentice Hall, 1998.	English
ASHRAE Handbook: “Fundamentals”, 2001.	English

Course Assessment

Assesment Methods	Percentage (%)	Assesment Methods Title
Final Exam	50	Final Exam
Midterm Exam	50	Midterm Exam

L+P: Lecture and Practice
PQ: Program Learning Outcomes
LO: Course Learning Outcomes

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