A low-speed wind tunnel investigation is presented characterizing the impact of Gurney flaps on an elliptical airfoil. The chordwise attachment location and height of the flaps were varied, as was the Reynolds number. The results showed strong nonlinearities in the lift curve which were present for all tested geometries. Flap effectiveness was seen to diminish as the flap was moved closer to the trailing edge stemming from flap submersion in separated flow. For the tested cases, the measured lift coefficients showed a weak Re dependency. The upper airfoil surface was shown to carry approximately 80% of the total lift load. The top surface caused a pitching moment reversal associated with nonlinearity in the lift curve.

References

1.
Lissaman
,
P. B. S.
,
1983
, “
Low-Reynolds-Number Airfoils
,”
Annu. Rev. Fluid Mech.
,
15
(
1
), pp.
223
239
.
2.
Weiburst
,
E.
,
Bertelrud
,
A.
, and
Ridder
,
S. O.
,
1987
, “
Experimental Investigation of Laminar Separation Bubbles and Comparison With Theory
,”
J. Aircr.
,
24
(
5
), pp.
291
297
.
3.
Hsiao
,
F. B.
, and
Hsu
,
C. C.
,
1989
, “
Numerical Prediction of Aerodynamic Performance for Low Reynolds Number Airfoils
,”
J. Aircr.
,
26
(
7
), pp.
689
691
.
4.
Roberts
,
W. B.
,
1980
, “
Calculation of Laminar Separation Bubbles and Their Effect on Airfoil Performance
,”
AIAA J.
,
18
(
1
), pp.
25
31
.
5.
Schmidt
,
G. S.
, and
Mueller
,
T. J.
,
1989
, “
Analysis of Low Reynolds Number Separation Bubbles Using Semiempirical Methods
,”
AIAA J.
,
27
(
8
), pp.
993
1001
.
6.
Gaster
,
M.
,
1969
, “
The Structure and Behavior of Laminar Separation Bubbles
,” R&M No. 3595.
7.
Horton
,
H. P.
,
1968
, “
Laminar Separation in Two and Three-Dimensional Incompressible Flow
,” Ph.D. dissertation, University of London, London.
8.
Lin
,
J. C. M.
, and
Pauley
,
L. L.
,
1996
, “
Low-Reynolds-Number Separation on an Airfoil
,”
AIAA J.
,
34
(
8
), pp.
1570
1577
.
9.
Lin
,
J. C. M.
, and
Pauley
,
L. L.
,
1993
, “
Unsteady Laminar Separation on Low-Reynolds-Number Airfoils
,”
AIAA
Paper No. 93-0209.
10.
Zahm
,
A. F.
,
Smith
,
R. H.
, and
Louden
,
F. A.
,
1929
, “
Forces on Elliptic Cylinders in Uniform Air Stream
,” Aerodynamical Laboratory, Washington, DC, NACA Report No.
NACA TR-315
.https://ntrs.nasa.gov/search.jsp?R=19930091358
11.
Schubauer
,
G. B.
,
1939
, “
Air Flow in the Boundary Layer on an Elliptic Cylinder
,” National Advisory Committee for Aeronautics, Langley Aeronautical Laboratory, Langley Field, VA, NACA Report No.
NACA-TR-652
.https://ntrs.nasa.gov/search.jsp?R=19930091727
12.
Hoerner
,
S. F.
, and
Borst
,
H. V.
,
1975
,
Fluid-Dynamic Lift
,
S. F. Hoerner
, New York, pp.
2.6
2.7
.
13.
Kwon
,
K.
, and
Park
,
S. O.
,
2005
, “
Aerodynamic Characteristics of an Elliptic Airfoil at Low Reynolds Number
,”
J. Aircr.
,
42
(
6
), pp.
1642
1644
.
14.
Chitta
,
V.
,
Dhakal
,
T. P.
, and
Walters
,
D. K.
,
2012
, “
Prediction of Aerodynamic Characteristics for Elliptic Airfoils in Unmanned Aerial Vehicle Applications
,”
Low Reynolds Number Aerodynamics and Transition
,
InTech
, Rijeka, Croatia.
15.
Kwon
,
K.
, and
Park
,
S. O.
,
2005
, “
Aerodynamic Characteristics of an Elliptic Airfoil at Low Reynolds Number
,”
AIAA
Paper No. 2005-4762.
16.
Mitchell
,
C. A.
, and
Vogel
,
B. J.
,
2003
, “
The Canard Rotor Wing (CRW) Aircraft—A New Way to Fly
,”
AIAA
Paper No. 2003-2517.
17.
Liebeck
,
R. H.
,
1978
, “
Design of Subsonic Airfoils for High Lift
,”
J. Aircr.
,
15
(
9
), pp.
547
561
.
18.
Giguere
,
P.
,
Dumas
,
G.
, and
Lemay
,
J.
,
1997
, “
Gurney Flap Scaling for Optimum Lift-to-Drag Ratio
,”
J. Aircr.
,
35
(
12
), pp.
1888
1890
.
19.
Maughmer
,
M. D.
, and
Bramesfeld
,
G.
,
2008
, “
Experimental Investigation of Gurney Flaps
,”
J. Aircr.
,
45
(
6
), pp.
2062
2067
.
20.
Traub
,
L. W.
, and
Agarwal
,
G.
,
2007
, “
Exploratory Investigation of Geometry Effects on Gurney Flap Performance
,”
J. Aircr.
,
44
(
1
), pp.
351
353
.
21.
Meyer
,
R.
,
Hage
,
W.
, and
Bechert
,
D. W.
,
2006
, “
Drag Reduction on Gurney Flaps by Three-Dimensional Modifications
,”
J. Aircr.
,
43
(
1
), pp.
132
140
.
22.
Jeffrey
,
D.
,
Zhang
,
X.
, and
Hurst
,
D. W.
,
2000
, “
Aerodynamics of Gurney Flaps on a Single-Element High-Lift Wing
,”
J. Aircr.
,
37
(
2
), pp.
295
301
.
23.
Liu
,
T.
, and
Montefort
,
J.
,
2007
, “
Thin-Airfoil Theoretical Interpretation for Gurney Flap Lift Enhancement
,”
J. Aircr.
,
44
(
2
), pp.
667
671
.
24.
Traub
,
L. W.
,
2009
, “
Effect of Gurney Flap on Annular Wings
,”
J. Aircr.
,
46
(
3
), pp.
1085
1088
.
25.
Li
,
Y.
,
Wang
,
J.
, and
Zhang
,
P.
,
2003
, “
Influences of Mounting Angles and Locations on the Effects of Gurney Flaps
,”
J. Aircr.
,
40
(
3
), pp.
494
498
.
26.
Wang
,
J. J.
,
Lia
,
Y. C.
, and
Choi
,
K. S.
,
2008
, “
Gurney Flap—Lift Enhancement, Mechanisms and Applications
,”
Prog. Aerosp. Sci.
,
44
(
1
), pp.
22
47
.
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