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Small Wind Energy Appalachian State University Affordable, Clean Energy for Homes, Farms & Businesses Small Wind Energy Appalachian State University • Small Wind Introduction • Beech Mountain R&D Site • Wind Resource Assessment Small Wind Intro Why Wind? •Renewable •Clean •Widely available •Produced locally •Reduced price volatility •Allows energy independence •SUSTAINABLE! A Valuable, Widely-Available Resource Small Wind Energy Systems Value of Power = 6-18¢ / kWh Installed cost of $2-$3/Watt is 1/3 to 1/2 that of solar technologies Require less wind to operate than utility-scale wind energy applications Factors to Consider • Good wind resource: Class 2 or better • Home or business located on 1 acre or more of land • (depending on site) Average monthly electricity bills >$100 for 10 kW system, >$50 for 5 kW system • Zoning restrictions, economic incentives Small Wind Turbines Are Different • Utility-Scale Wind Power 600 - 1,800 kW wind turbines 1,500 kW – Installed on wind farms, 10 – 300 MW – Professional maintenance crews – 13 mph (6 m/s) average wind speed • Small Wind Power 300 W - 250 kW wind turbines – Installed at individual homes, farms, businesses, schools, etc. – On the “customer side” of the meter, or off the utility grid entirely – High reliability, low maintenance – 9 mph (4 m/s) average wind speed 10 kW Small Wind Turbines • Configuration: 2 or 3 blades aimed into the wind by the tail • Blades: Fiber-reinforced plastics • Over-Speed Protection: Furling (rotor turns out of the wind), no brakes • Generator: Direct-drive, permanent magnet alternator (no brushes), 3-phase AC, variable-speed operation • Controller: Electronic device that delivers - DC power for charging batteries - AC power for utility interconnection • Result: – Simple, rugged design – Only 2–4 moving parts – Little regular maintenance required Bergey EXCEL, 10 kW Small Wind Turbine Towers Guyed Tower Tilt-Up Tower Self-Supporting Tower Over-Speed Protection During High Winds • Upward Furling: The rotor tilts back during high winds Over-Speed Protection During High Winds • Angle Governor: The rotor turns up and to one side • Or do a 360 degree spin out , from commentator Jeff Lauckhart…. The Small Wind Market Southwest Windpower Flagstaff, Arizona www.windenergy.com Whisper H80 1000 W AIR-X 400 W Whisper H40 Whisper 175 900 W 3 kW Bergey Windpower Norman, Oklahoma www.bergey.com 1 kW BWC Excel 10 kW African Windpower Abundant Renewable Energy, Newberg, Oregon www.abundantre.com AWP3.6 1 kW Proven Engineering Products, Ltd. Scotland, United Kingdom www.provenenergy.com WT600 600 W WT2500 2.5 kW WT6000 6 kW Wind Turbine Industries, Inc. Prior Lake, Minnesota Jacobs 31-20 20 kW www.windturbine.net Atlantic Orient Corp. Norwich, Vermont AOC 15/50 50 kW www.aocwind.net Fuhrländer FL 250 250 kW Lorax Energy Systems, Rhode Island www.lorax-energy.com FL 100 100 kW FL 30 30 kW Aeromax Aeromax Incorporated Chino Valley, AZ www.aeromaxenergy.com Lakota 900 W Lakota M1 900 W OB1KW Coming soon …or Build Your Own Turbine www.scoraigwind.com Types of Systems Options: On or Off the Grid? Stand-Alone System • Batteries to store excess power • Charge controller • Inverter (DC to AC) • Back-up power source for complete energy independence Grid-Connected System • Inverter (DC to AC) • Annual wind speed >10 mph (4.5 m/s) • Customer motivated by high utility prices, self sufficiency, or environmental concerns Connecting to the Grid • PURPA requires utilities to connect with and purchase power from small wind systems • Utility acts as a big “battery bank” • Safety - Must stop supplying power to grid during power outages • Power Quality - Must match utility’s voltage, frequency, and quality Typical Applications Farms, Homes, Businesses Off-Grid Water Pumping with Wind Supplementing Grid Power • Supplies water for 120 head of cattle • 1 kW, 9-ft rotor, 30-ft tower • Produces ~ 2,000 kWh/yr • Offsets ~ 1.5 tons CO2/yr • Costs ~ $4,000 installed • Connected to utility grid through house/farm wiring • 3 kW, 15-ft rotor, 23-ft tower* • Produces ~ 5,000 kWh/yr • Offsets ~ 3.8 tons CO2/yr • Costs ~ $10,000 * due to zoning restrictions (not recommended) Hybrid Systems Solar and Wind Resources are Complimentary 400 Hours of sunshine or average wind power (Watts/m2) Data from SE Iowa 350 Hoursofof Hours sunshine/month Sunshine 300 250 200 Average wind power 150 100 Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 02770324 The Effect of Seasons on Hybrid Power Systems Summer PV modules and wind turbine (active generation) Battery (storage) Loads (utilization) PV modules and wind turbine (no generation) Battery (storage) Loads (utilization) Winter 02770322 SWI Research & Demonstration Site Beech Mountain, NC SWI Research & Demonstration Site Beech Mountain, NC www.wind.appstate.edu SWI Research & Demonstration Site Beech Mountain, NC www.wind.appstate.edu Research •Acoustic •Power Curve •Energy Demonstration •Students •Public •Always open Workshops •Intro/tours •Wind assessment •Experts •Installations SWI Research & Demonstration Site Beech Mountain, NC www.wind.appstate.edu Problem Solving •Tower raising •Grid connection •Hurricanes •Configuration SWI Research & Demonstration Site Beech Mountain, NC (class 5) www.wind.appstate.edu SWWP AirX 400W 33 kWh/mon SWWP Whisper H40 900W 155 kWh/mo Bergey XL.1 African AWP3.6 1000W 1500W 185 kWh/mo 362 kWh/mo SWWP Jacobs Whisper 31-20 20kW 175 3000W 697 kWh/mo 3991 kWh/mo Wind Resource Assessment The United States Wind Map North Carolina The North Carolina Wind Map Watauga County Initial Site Assessment • Flagging of vegetation • Open view to prominent wind direction • Hill or ridge perpendicular to prominent wind direction • Funneling effects Importance of “Micro-Siting” Measuring Devices and Parameters • Anemometer – Best indication of energy production – Indicator of turbulence – Provide information on wind shear • Wind Vane – Wind rose – Siting • Temp Sensor – Identify icing events – Air density • Barometric Pressure – Air Density • Pyranometer – Effectiveness of hybrid system Estimation of Annual Energy Production Power Curve Frequency of Occurrence (Rayleigh Distribution) Annual Energy Production SWI Anemometer Loan Program SWI Anemometer Loan Program www.wind.appstate.edu SWI Anemometer Loan Program www.wind.appstate.edu •Four systems •Application process ―15 this year •One year •Final Report •Small wind information Thanks, For More Information • www.wind.appstate.edu • www.homepower.com • www.nrel.gov/wind • www.awea.org/smallwind.html • www.eren.doe.gov/erec/factsheets/win d.html