Abstract
The development of special-purpose airfoils for horizontal-axis wind turbines (HAWTs) began in 1984 as a joint effort between the National Renewable Energy Laboratory (NREL), formerly the Solar Energy Research Institute (SERI), and Airfoils, Incorporated. Since that time nine airfoil families have been designed for various size rotors using the Eppler Airfoil Design and Analysis Code. A generalperformance requirement of the new airfoil families is that they exhibit a maximum lift coefficient (c1, max) which is relatively insensitive to roughness effects. The airfoil families address the needs of stall-regulated, variable pitch, and variable rpm wind turbines. For stall-regulated rotors, better peak-power control is achieved through the design of tip airfoils that restrain the maximumlift coefficient. Restrained maximum lift coefficient allows the use of more swept disk area for a given generator size. Also, for stall-regulated rotors, tip airfoils with high thickness are used to accommodate overspeed control devices. For variable-pitch and variable-rpm rotors, tip airfoils having a high maximum lift coefficient lend themselves to lightweight blades with low solidity. Tipairfoils having low thickness result in less drag for blades having full-span pitch control. Annual energy improvements from the NREL airfoil families are projected to be 23% to 35% for stall-regulated turbines, 8% to 20% for variable-pitch turbines, and 8% to 10% for variable-rpm turbines. The improvement for stall-regulated turbines has been verified in field tests.
Original language | American English |
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Pages | 117-128 |
Number of pages | 12 |
State | Published - 1995 |
Event | Windpower '95: Annual Conference and Exhibition of the American Wind Energy Association - Washington, D.C. Duration: 26 Mar 1995 → 30 Mar 1995 |
Conference
Conference | Windpower '95: Annual Conference and Exhibition of the American Wind Energy Association |
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City | Washington, D.C. |
Period | 26/03/95 → 30/03/95 |
NREL Publication Number
- NREL/CP-21826