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Intro to Engineering Design E D S G N 1 0 0

Engineering Analysis. Spinning Gargoyle. Table of Contents. Equation P = (0.5)*D*A*V 3 *(24%) P = Watts Generated D = Air Density A = Swept Area V = Wind Velocity Efficiency Blades – 40% Generator – 60% Watts 6 th Floor – 56 Watts per Generator 12 th Floor – 78 Watts per Generator

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Intro to Engineering Design E D S G N 1 0 0

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  1. Engineering Analysis Spinning Gargoyle Table of Contents Equation P = (0.5)*D*A*V3*(24%) P = Watts Generated D = Air Density A = Swept Area V = Wind Velocity Efficiency Blades – 40% Generator – 60% Watts 6th Floor – 56 Watts per Generator 12th Floor – 78 Watts per Generator 24th Floor – 110 Watts per Generator 48th Floor – 154 Watts per Generator 96th Floor – 216 Watts per Generator • Introduction • Mission Statement • Design Specifications • Final Design • Prototype • Engineering Analysis • Conclusion Intro to Engineering Design EDSGN100 Conclusions There is a bright future on the horizon with the advent of green energy through wind turbines in urban sectors. This and other wind turbines on our commercial buildings will lead the way to an economically sound and environmentally friendly world. David EmersonGeorge AkritasDavid FristerChaoran Chen Section #10          Team #6 Built for:

  2. Introduction: building of the future). A magnificent and a profitable wind turbine will be the bench mark of this project. • As energy prices increase, companies are looking for alternative sources that are cheap and productive. These corporate giants want an aesthetically pleasing wind turbine that can also be relied on as a significant source of power. Furthermore, the wind turbines should be able to return the companies investments in a timely fashion. After this time, these sources of power will turn into sources of revenue from all the excess energy produced. Design Specifications: • Wind Turbine: • Architecturally integrated, doesn’t look like an afterthought • Design is acceptable for either new construction or retrofitting (ideally both) • Return on investment (ROI) is timely • System should utilize “small wind” approach (multiple smaller models) • Utilize existing technology or “develop your own • Chose a building location in the Northeast U.S. Mission Statement: Prototype Final Design: • The objective of this project was to create an architecturally integrated commercial wind turbine. First a viable and effective wind turbine must be developed to generate power. Then a building in the North East must be chosen on which the turbine can be seamlessly integrated into the architecture of the current building (or a

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