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Course Description

Course Code Semester Teoric Credit ECTS
HEAT PUMP AND ITS APPLICATIONS MKM 556 0 3 + 0 3 6
Prerequisite Courses
Recommended Elective Courses
Course Language Türkçe
Level of the Course Yüksek Lisans
Course Type SECMELI
Course Coordinator Doç. Dr. MUSTAFA ALİ ERGÜN ERTÜRK
Instructor Doç. Dr. MUSTAFA ALİ ERGÜN ERTÜRK
Course Assistants
Course Category Alanına Uygun Öğretim
Course Objective

Achievement of basic informations about the design, selection, projecting and applications of the heat pump systems.

Course Content

The basic concepts for heat pumps, elements and cycle analysis of mechanical vapor compression heat pumps, elements and cycle analysis of absorption heat pumps, widespread applications and design principles of heat pumps

Learning Outcomes of the Course Teaching Methods Measurement Methods
1 - Recognition adn use of the basic concepts of thermodynamics related with heat pumps 15 - 14 - 4 - 1 - C - A -
2 - To analyze the mechanical vapor compression heat pump cycles and to determine the capacities of basic elements 15 - 14 - 4 - 1 - C - A -
3 - To analyze the the absorption heat pump cycles and to determine the capacities of basic elements 15 - 14 - 4 - 1 - C - A -
4 - Comprehension and projecting of the heat pump systems used in domestic and industrial applications 16 - 1 - 14 - F - D - A -
Teaching Methods: 16:Project Based Learning 1:Lecture 14:Self Study 15:Problem Solving 4:Drilland Practice
Measurement Methods: F:Performance Task D:Project / Design A:Testing C:Homework

Course Flow

Week Topics Preliminary
1 Introduction and basic concepts
2 Cooling systems, vapor compression refrigeration and heat pump cycles
4 Analysis of the vapor compression cycle according to the 1th law of thermodynamics
3 Basic elements
5 Analysis of the vapor compression cycle according to the 2nd law of thermodynamics
6 Real vapor compression cycle
7 Absorption and adsorption heat pump cycles
8 Analysis of absorbtion cycle
9 Heat pump applications (source of air and water) for heating purposes
10 Heat pump applications (source of earth and solar energy) for heating purposes
11 Industrial heat pump applications
12 Recovering heat in cooling applications
13 Drying, evaporation and boiling applications
14 Waste heat recovery applications

Resources

Lecture Notes
Course Resources

[1] K. E. Herold, R. Radermacher, S. A. Klein. Absorption Chillers and Heat Pumps. CRC Press. 2016.

[2] O. A. Filho. Heat Pump Dryers. CRC Press. 2016.

[3] J. C. Hadorn. Solar and Heat Pump Systems for Residential Buildings. Wilhelm Ernst & Sohn. 2015.

[3] Y. Çengel. Termodinamik Mühendislik Yaklaşımıyla. Palme Yayıncılık, 2014.

[4] R. Yamankaradeniz, I. Horuz, Ö. Kaynaklı, S. Coşkun, N. Yamankaradeniz. Soğutma Tekniği ve Isı Pompası Uygulamaları. Dora Yayıncılık, 2013.

[5] K. Brodowicz, T. Dyakowski. Heat Pumps. Butterworth-Heinemann Ltd. 1993.

[6] D. A. Reay , B. A. Macmichael. Heat Pumps. Pergamon Press. 1988.

[7] H. J. Sauer. H. H. Ronald Heat pump systems. John Wiley & Sons. 1983.

[8] H. L. Cube, F. Steimle. Heat Pump Technology. Butterworth. 1981.


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Contribution of the Course to Program Outcomes

No Program Learning Outcomes Contribution Level
1 2 3 4 5

Evaluation System

Contribution Level Order Percentage of Contribution
AraSinav 1 50
Odev 1 20
PerformansGoreviUygulama 1 10
ProjeTasarim 1 20
Total 100
The Ratio of the Semester to Success 60
Final to Success Ratio 40
Total 100

ECTS Workload

Activity Sayısı Time (Hour) Total Workload (Hour)
Course Duration (Including the exam week: 16x Total course hours) 16 3 48
Hours for off-the-classroom study (Pre-study, practice) 16 2 32
Mid-terms 1 12 12
Assignment 1 10 10
Project / Design 1 20 20
Performance Task (Seminar) 1 5 5
Final examination 1 12 12
Total Workload 139
Total Workload / 25 (h)Toplam İş Yükü /25(s) 5.56
ECTS Credit of the Course 5.56
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