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Prototype Wind Turbine Presentation by – Anthony Benasco Brody Holloway Hulon Reid Advisors – Dr. Cris Koutsougeras Dr. Junkun Ma Senior Design Teacher.

Published byBruce Davidson Modified over 8 years ago

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Presentation on theme: "Prototype Wind Turbine Presentation by – Anthony Benasco Brody Holloway Hulon Reid Advisors – Dr. Cris Koutsougeras Dr. Junkun Ma Senior Design Teacher."— Presentation transcript:

1 Prototype Wind Turbine Presentation by – Anthony Benasco Brody Holloway Hulon Reid Advisors – Dr. Cris Koutsougeras Dr. Junkun Ma Senior Design Teacher – Dr. Cris Koutsougeras Class- ET 494 Senior Design

2  Vertical Wind Turbine  Clean Alternative Energy  Sustainability Center Introduction

3  Design an efficient prototype Vertical Wind Turbine  Convert kinetic (mechanical) energy  electrical energy  Design Mechanical Airfoil System with Wind Direction Indicator  Produce efficient power source Objectives

4  Air Foils - Wind Power Generation  Cam System - Controls Air Foil Movement  Drive System - Adjusts RPM  Electronic System - Controls Wind Turbine Functionality  Generator - Conversion to Usable Energy  Weather Vane – Specifies Wind Direction to System Components

5 Vertical Wind Turbine Initial Design

6 Airfoil Design Modification Louver System

7 CAM Design with Displacement Diagram

8  We will use a Vehicle Axle for the shaft that is attached to the Air Foils and driving sprocket.  Length = 92 in, Diameter = 3 in  Required shaft Diameter (D) = Sqrt[2.94 (Kt*V*N) / Sn’] Kt = Stress Factor, V= Shear Force, N = Max Stress Component  D = Sqrt[2.94(2*10.58*361.43) / 11250 = 1.414 inch Shaft Design

9  Chain And Sprocket Design  No. 80 Chain, 1 inch pitch  Length = 100 pitches, 100 inch Chain  Center Distance = 30.26 inch (Maximum)  Sprockets = Large, 59 teeth, D = 18.789  Small, 17 teeth, D = 5.442  Input RPM @ 3 MPH = 38 RPM (Estimated)  Output RPM = 130 Minimum, 2500 Maximum Drive Design

10 COMSOL Model

11 Cost and Weight Estimations

12  Platform – 3 ft. for components ; 2 ft. overhang for alternator, chain, shaft and sprocket  Forces in x-direction: F(x) = 0  Forces in y-direction: F (y) = 0 = -R1 – R2 +270lbs+30lbs  Moment of Bending: M(a) = 0 = (270)(1.5ft) + (30)(5ft) - R2(3ft) R2 = (555)/ (3ft) = 185 lbs. R1 = 115 lbs. Determining Reaction Forces on Platform

13  To design a potentially more efficient prototype vertical wind turbine  Capable of withstanding 130+ mph winds  Continuous adjustment to the wind direction for maximum performance  Design of a fail-safe system for extreme, harsh conditions  Supplemental teaching resource for future engineering students Goals

14  2/24/13  COMSOL Simulation Completed  3/10/13  Shaft Machined and Fabricated  3/24/13  Air Foils Fabricated  4/7/13  Cam System Built  4/21/13  Install Electrical Components and Test  5/5/13  Project Completed Deliverables

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