Structural, mechanical, electrical and lighting systems integration and correlation methods will be discussed in the process of architectural project design. In this regard, the use of the latest technology in the field of application information and planning principles and techniques peculiar to each subject based on the performance review of the data and their applications will be described. In this context, passive air-conditioning-climate and climatic elements, climatic comfort; elements of climate change, interpretation; climate and energy, which are effective in controlling the design parameters related to the environment (location, orientation, building envelope, building form, building ranges, etc..); issues such as the design of the building shell will be discussed. Also-Topics such as the basics of lighting, types of lighting; photometry, legislation; visual comfort and light control design variables which are effective for the environment (windows, room dimensions, interior surface reflectance, external barriers, artificial light sources, etc..); artificial lighting systems will be featured and will be discussed.
Prerequisite(s)
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Corequisite(s)
-
Special Requisite(s)
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Instructor(s)
DOÇ. DR. ENES YAŞA
Course Assistant(s)
-
Schedule
This information will be updated for each semester.
Office Hour(s)
It is determined by prior appointment.
Teaching Methods and Techniques
Lecture, practice and exams.
Principle Sources
Berköz, E., Küçükdoğu, M., Yılmaz, Z., v.d., (1995), “Enerji Etkin Konut ve Yerleşme Tasarımı”, İstanbul, TÜBİTAK INTAG 201 no’lu araştırma projesi.
Koeningsberger, O.H., Ingersoll, T.G., Mayhew, A., Szokolay, S.V., (1974), “Manuel of Tropical Housing and Building”, New York, Longman.
Ok, V., (1988), “Yerleşme Dokusu Dizayn Değişkenlerinin İklimsel Performans Açısından Optimizasyonu”, İstanbul, TÜBİTAK.MAG 718.
Carter, C., de Villiers, J., (1987), “Passive Solar Building Design”, Pergamon Press.
Cottom-Wirslow, M., (1990), “Environmental Design: The Best Architecture and Technology”, PBC, Glenlove.
Gene, R., (1988), “Site Planning, Environment, Process and Development Brooks”, New Jersey, Prentice Hall.
Beranek, L., (1960), “Noise Reduction”, Mc Graw-Hill Book Company, Inc.
Close, P.D., (1966), “Sound Control and Thermal Insulation of Buildings”, New York, Reinhold Publishing Corporation.
Parkin, P.H., Humphreys, H.R., (1958), “Acoustics, Noise and Buildings”, London, Faber and Faber Ltd.
Yerges, L.F., (1969), “Sound, Noise and Vibration Control”, Van Nostrand Reinhold Company.
West, M., (1973), “The Sound Attenuation in an Open-Plan Office”, Applied Acoustics, Vol.6.
Efron, A., (1957), “Sound”, New York, John F. Rider Pub. Inc.
Kinzey, B., Sharp, H.M., (1963), “Environmental Technologies in Architecture”, New Jersey, Prentice Hall.
Smith, B.J., (1970), “Environmental Physics Acoustics”, New York, Elsevier Publishing Company, 1970.
Lawson, F., (1981), “Conference Convention & Exhibition Facilities”, Great Britain, Mackays of Chatham Ltd.
V., O., K., C., M., H., (1950), Acoustical Designing in Architecture”, John Wiley & Sons.
Gilford, C., (1972), “Acoustic for T.V. and Radio Studios”, England, IEE Mongraph Series.
Burberry, P., (1983), “Environment and Services”, London, The Anchor Press Ltd.
Osbourn, D., (1985), “Introduction to Building”, London, B T Batsford Ltd.
Moore, F., (1993), “Environmental Control Systems”, New York, Mc Graw-Hill, Inc.
Eriç, M.,(1994), “Yapı Fiziği ve Malzemesi”, İstanbul, Literatür Yayıncılık.
Toydemir, N., Gürdal, E., Tanaçan, L.,(2000), “Yapı Elemanı Tasarımında Malzeme”, İstanbul, Literatür Yayıncılık.
TS 825,(1988), “Binalarda Isı Yalıtım Kuralları”, Ankara , TSE.
Other Sources
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Course Schedules
Week
Contents
Learning Methods
1. Week
Course introduction
Theory
2. Week
Design and relate of structural systems in the architectural project design.
Theory
3. Week
Design and relate of mechanical systems in the architectural project design.
Theory, studio work
4. Week
Design and relate of electrical and lighting systems in the architectural project design.
Theory, studio work
5. Week
Integration of structural, mechanical, electrical and lighting systems in the process of architectural project design.
Theory, studio work
6. Week
Assessment of the issues according to the project.
Studio work, discuss
7. Week
Passive air conditioning-climate and climatic elements, climatic comfort; elements of climate change; climate and energy, which are effective in controlling the design parameters related to the environment (location, orientation, building envelope, building form, building ranges, etc..); building shell design.
Studio work, discuss
8. Week
Passive air conditioning-climate and climatic elements, climatic comfort; elements of climate change; climate and energy, which are effective in controlling the design parameters related to the environment (location, orientation, building envelope, building form, building ranges, etc..); building shell design.
Studio work, discuss
9. Week
Passive air conditioning-climate and climatic elements, climatic comfort; elements of climate change; climate and energy, which are effective in controlling the design parameters related to the environment (location, orientation, building envelope, building form, building ranges, etc..); building shell design.
Studio work, discuss
10. Week
Midterm Exam
Assessment
11. Week
Lighting-the basics, types of lighting; photometry, legislation; visual comfort and light control design variables which are effective for the environment (windows, room dimensions, interior surface reflectance, external barriers, artificial light sources, etc..); artificial lighting systems.
Theory
12. Week
Lighting-the basics, types of lighting; photometry, legislation; visual comfort and light control design variables which are effective for the environment (windows, room dimensions, interior surface reflectance, external barriers, artificial light sources, etc..); artificial lighting systems.
Theory
13. Week
Lighting-the basics, types of lighting; photometry, legislation; visual comfort and light control design variables which are effective for the environment (windows, room dimensions, interior surface reflectance, external barriers, artificial light sources, etc..); artificial lighting systems.
Theory, studio work
14. Week
Lighting-the basics, types of lighting; photometry, legislation; visual comfort and light control design variables which are effective for the environment (windows, room dimensions, interior surface reflectance, external barriers, artificial light sources, etc..); artificial lighting systems.
Theory, studio work
15. Week
16. Week
17. Week
Assessments
Evaluation tools
Quantity
Weight(%)
Project(s)
1
40
Final Submission
1
60
Program Outcomes
PO-1
Understanding the basic principles of structural systems, development and appropriate application of contemporary structural systems.
PO-2
Understanding managerial tasks of architect and approaches, models and techniques to improve effectiveness in project and construction management.
PO-3
Understanding the relationship between sub systems which forms entire building and building technology, to ensure effective and correct use of a complex building from the beginning of design process to the usage, and ability to be able to criticize them.
PO-4
Ability to direct the experience gained from architectural engineering to new fields and ability to generate strategies.
PO-5
Ability to transfer and apply knowledge according to architectural engineering, to the beginning of design and construction processes of a project.
PO-6
Ability to use the theoretical and practical knowledge of the field related, referring to undergraduate competence.
PO-7
Ability to conduct research, analysis, interpretation; to use appropriate techniques and produce original results in the field of architectural engineering.
PO-8
Competence for analyzing, interpreting and associating within the framework of architectural engineering with the project and construction processes.
PO-9
Competence for producing a comprehensive architectural project from the beginning of schematic design to detailed system development phase (structural and environmental systems, safety and fire protection, partition systems, building envelop, building service systems).
PO-10
Competence for making strategic decisions of architectural design projects, in the field of architectural engineering, and generating original solutions.
PO-11
Competence for presenting a work – made individually or within a group – systematically, in a foreign language, using the required computer programs, oral, written and visual.
Learning Outcomes
LO-1
Having information about combining and relating methods of structure, mechanic, electric, lightening systems in architectural design process.
LO-2
Learning how to make any interpretation of passive air conditioning that contains climate and the elements of climate, climatic comfort, changing of elements of climate; design variables such as place, direction, the shell of building, the form of building, gaps between buildings, etc. which are controlled by climate and energy that are related with artificial enviroment and having information about some subjects such as designing a building shell, and learn how to read all of these information on projects.
LO-3
Having information about lightening - basic information, types of lightening, photometric sizes, rules, visual comfort, design variables which are related with artificial enviroment that controlled by light such as windows, volume sizes, reflectors of internal surface, exterior obstacles, artifical light resources, etc.; artificial lightening system and learning how to evaluate and reflect all these information on designs.
LO-4
Having information about the basic principles of natural and artificial lightening, acustic and air conditioning, active and passive heating and cooling, ventilatingand use of energy with using proper performance tools in designing enviromental systems.
LO-5
Being able to evaluate and develop any compherensive architectural project, from schematic design step to detailled system design step which contains structural and enviromental systems, safety and fire protection, separating systems, shell of building, building service systems.