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A Note about Self-Induced Velocity Generated by a Lifting-Line Wing or Rotor Blade
| AUTHOR | Administration (Nasa), National Aeronaut |
| PUBLISHER | Independently Published (08/21/2020) |
| PRODUCT TYPE | Paperback (Paperback) |
Description
This report presents an elementary analysis of the induced velocity created by a field of vortices that reside in the wake of a rotor blade. Progress achieved by other researchers in the last 70 years is briefly reviewed. The present work is presented in four stages of complexity that carry a lifting-line representation of a fixed wing into a single-blade rotor. The analysis leads to the conclusion that the lifting rotor's spiraling vortex wake structure has very high induced power when compared to the ideal wing. For an advanced ratio of one-half, induced power is on the order of 10 times that of the wing when the comparison is made at wingspan equal to rotor diameter and wing and rotor having equal lift. Harris, Franklin D. Ames Research Center NASA/CR-2006-213478, Rept-A-050006 NAG2-1597
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Product Details
ISBN-13:
9798676632465
Binding:
Paperback or Softback (Trade Paperback (Us))
Content Language:
English
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Page Count:
90
Carton Quantity:
45
Product Dimensions:
8.50 x 0.19 x 11.02 inches
Weight:
0.51 pound(s)
Country of Origin:
US
Subject Information
BISAC Categories
Reference | Research
Reference | Space Science - General
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This report presents an elementary analysis of the induced velocity created by a field of vortices that reside in the wake of a rotor blade. Progress achieved by other researchers in the last 70 years is briefly reviewed. The present work is presented in four stages of complexity that carry a lifting-line representation of a fixed wing into a single-blade rotor. The analysis leads to the conclusion that the lifting rotor's spiraling vortex wake structure has very high induced power when compared to the ideal wing. For an advanced ratio of one-half, induced power is on the order of 10 times that of the wing when the comparison is made at wingspan equal to rotor diameter and wing and rotor having equal lift. Harris, Franklin D. Ames Research Center NASA/CR-2006-213478, Rept-A-050006 NAG2-1597
Show More