Week |
Subject |
Related Preparation |
1) |
Introduction to Sustainable Design:
A discussion of ecological design principles and broad scale urban approaches to sustainable developments.
A selection of case studies will be used to discuss various approaches to incorporating sustainable design objectives into architectural design. Discussion will include material selection, embodied energy, recycling initiatives, quality and durability as attitudes, implications of life cycle costing. |
None |
2) |
Verifying and Marketing Green Buildings:
Selling environmental design requires quantification and data. We will look at some of the Green Building
tools and evaluation methods; including Green Building Advisor software, Athena Environmental Impact Estimator, ENVest, LEED, and Green Globe Standards. |
Peruse the website of the U.S. Green Building Council (authors of LEED): http://www.usgbc.org/
Peruse the website of the British Research Establishment Environmental Assessment Method (authors of BREEAM): http://www.breeam.org/ |
3) |
Lighting in Buildings:
Detailed look at the use of light in buildings from the point of view of issues of source, quantity, quality, human response, glare, room use, control, strategies, applications. The importance of natural lighting, both from an energy conservation point of view, as well as the aesthetic impact of natural light on interior architecture and the function of space. |
Read Sinopoli: pp. 47-56 |
4) |
Passive solar design |
None |
5) |
At the heart of it all: Energy from the sun |
Readings: Droege pp. 307-312 (100% Renewable: One Man’s Journey for a Solar World); Simon pp. 87-102 (Solar Energy) |
6) |
Wind energy |
Reading: Simon pp. 103-122 (Wind Energy)
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7) |
Midterm exam |
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8) |
Conserving water, gray water recycling, rainwater harvesting |
Read: Moxon: Chapter 3 (pp. 78-83) |
9) |
Sustainable materials, embodied energy |
Read: Moxon: Chapter 3 (pp. 84-106) |
10) |
Cradle 2 cradle design and sustainable material certification schemes |
Read: McDonough and Braungart: Introduction (pp. 3-16) |
11) |
Social sustainability |
Read: Simon Guy, & Steven A. Moore, pp. 47-58 |
12) |
The future of sustainable design |
None |
13) |
Student presentations |
Presentations related to the final assignment |
14) |
Student presentations |
Presentations related to the final assignment |
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Program Outcomes |
Level of Contribution |
1) |
To improve fundamental computer knowledge, to encourage students using office and package programs. |
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2) |
Ability to have and use of fundamental mathematics knowledge and skills the usage of relevant materials. |
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3) |
Ability to recognize general structures of machine equipments and the features of shaping |
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4) |
Ability to grasp manufacturing processes and cutting tool materials, materials, statics, mechanics and fluid science fundemantal knowledge. |
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5) |
Ability to draw assembly and auxilary devices as well as to draw whole or details of a system. |
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6) |
Ability to have a knowledge of fundemantal manufacturing process such as turning, milling, punching,grinding and welding techniques and to have a self esteem in order to work behind the bench. |
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7) |
Ability to do computer aided design and write program on digital benches. |
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8) |
Ability to prepare project report, follow up project process and implement projects. |
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9) |
ability to learn the areas of usage of electronic circuit components. Ability to grasp and write programs for micro controllers and for their components. Ability to design relevant circuits. |
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10) |
Ability to understand the electric motors principles and AC-DC analysis |
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11) |
Ability to gain a dominaion on visual programming |
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12) |
Having the ability to communicate efficiently in verbal and written Turkish, to know at least one foreign language in order to communicate with the colleagues and customers. |
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