Week |
Subject |
Related Preparation |
1) |
Introduction to Air Conditioning Systems:
General terms of Heating, Cooling and Air Conditioning
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2) |
Basic Knowledge at Air Conditioning Systems -
1. Refrigeration cycles
2. Air conditioning systems’ thermodynamic working principle
3. General review of heating, cooling and air conditioning systems
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3) |
Basic Knowledge at Air Conditioning Systems (continued)
1-Distinguishing between different systems
2-System analysis and working principles
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4) |
Basic Heating Systems
1.Heating System Design, discussions and practical notes
2.Thermal Comfort
3.Heating Systems’ Components
4.Pipes, valves, pumps and pipe calibre calculation
5.Application of Heating Systems
6.Natural gas modulation
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5) |
Air Conditioning System Applications
1.Various air conditioning systems (split, packed, etc.)
2.System selection
3.Thermal Comfort
4.Ventilation basics, internal air quality and hygiene
5.Heat Load Calculation
6.Channel System Design
8.Application of AC and Ventilation Systems
9.Examples of AC systems
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|
6) |
Applications in Tall Buildings
1.General terms
2.Heating system installation
3.Indoors air quality
4.Ventilation system installation
4.AC system installation
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|
7) |
Renewable Energies and Alternative Systems
1.General Terms
2.Solar Energy
3.Wind Energy
4.Hydrogen Energy
5.Bio-energy
6.Wave Energy
7.Geothermal Energy
8.Hydroelectric Energy
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|
8) |
Technical Visit - Isısan Academy Koşuyolu Practical Training Centre |
|
9) |
Introduction to Energy Economy |
|
10) |
Energy Economy at Sanitary System |
|
11) |
Energy Economy at Air Conditioning Systems |
|
12) |
Energy Economy at Ventilation Systems |
|
13) |
Energy Economy at Heating System |
|
14) |
Energy Economics in Buildings |
|
15) |
Preparation for the Final Exam |
|
16) |
Preparation for the Final Exam |
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|
Program Outcomes |
Level of Contribution |
1) |
Build up a body of knowledge in mathematics, science and Energy Systems Engineering subjects; use theoretical and applied information in these areas to model and solve complex engineering problems. |
4 |
2) |
Ability to identify, formulate, and solve complex Energy Systems Engineering problems; select and apply proper modeling and analysis methods for this purpose.
|
4 |
3) |
Ability to design complex Energy systems, processes, devices or products under realistic constraints and conditions, in such a way as to meet the desired result; apply modern design methods for this purpose. |
4 |
4) |
Ability to devise, select, and use modern techniques and tools needed for solving complex problems in Energy Systems Engineering practice; employ information technologies effectively. |
4 |
5) |
Ability to design and conduct numerical or pysical experiments, collect data, analyze and interpret results for investigating the complex problems specific to Energy Systems Engineering. |
4 |
6) |
Ability to cooperate efficiently in intra-disciplinary and multi-disciplinary teams; and show self-reliance when working on Energy Systems-related problems |
5 |
7) |
Ability to communicate effectively in English and Turkish (if he/she is a Turkish citizen), both orally and in writing. Write and understand reports, prepare design and production reports, deliver effective presentations, give and receive clear and understandable instructions. |
4 |
8) |
Recognize the need for life-long learning; show ability to access information, to follow developments in science and technology, and to continuously educate oneself. |
3 |
9) |
Develop an awareness of professional and ethical responsibility, and behave accordingly. Be informed about the standards used in Energy Systems Engineering applications. |
4 |
10) |
Learn about business life practices such as project management, risk management, and change management; develop an awareness of entrepreneurship, innovation, and sustainable development. |
4 |
11) |
Acquire knowledge about the effects of practices of Energys Systems Engineering on health, environment, security in universal and social scope, and the contemporary problems of Energys Systems engineering; is aware of the legal consequences of Energys Systems engineering solutions. |
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