This paper presents results from a wind tunnel based examination of the response of a wind turbine blade to tower shadow in head-on flow. In the experiment, one of the blades of a small-scale, two-bladed, downwind turbine was instrumented with miniature pressure transducers to allow recording of the blade surface pressure response through tower shadow. The surface pressures were then integrated to provide the normal force coefficient responses presented in this paper. It is shown that it is possible to reproduce the measured responses using an indicially formulated unsteady aerodynamic model applied to a cosine wake velocity deficit. It is also shown that agreement between the model and the measured data can be improved by careful consideration of the velocity deficit geometry.

1.
Powles
,
S. R. J.
,
1983
, “
Effects of Tower Shadow on the Dynamics of a Horizontal-Axis Wind Turbine
,”
Wind Eng.
,
7
, (
1
1
).
2.
Robinson, M. C., Galbraith, R.A.McD., Shipley, D. E., and Miller, M. S., 1995, “Unsteady Aerodynamics of Wind Turbines,” 33rd AIAA Aerospace Sciences Meeting, Reno.
3.
Horner, M. B., Galbraith, R. A. McD., Coton, F. N., Grant, I., Stewart, J. N., and De La Iglesia Moreno, F., 1995, “A Descriptive Model of the Flows Underlying the Impulsive Loading Produced by Blade-vortex Interaction,” Wind Energy 1995-14th ASME/ETCE Wind Energy Symposium, Houston, Texas, pp. 175–184.
4.
Thresher
,
R. W.
,
Wright
,
A. D.
, and
Hershberg
,
E. L.
,
1986
, “
A Computer Analysis of Wind Turbine Blade Dynamic Loads
,”
ASME J. Sol. Energy Eng.
,
108
(
1
), pp.
17
25
.
5.
Petersen, H., 1984, “Calculations on the DWT Wind Turbine,” Proc. 6th BWEA Conference, Reading, UK.
6.
Munduate, X., and Coton, F. N., 2000, “Identification of Dynamic Stall Regions on Horizontal Axis Wind Turbines,” 19th ASME Wind Energy Symposium, AIAA paper 2000-0039, Reno.
7.
Snyder, M. H., and Wentz, W. H., Jr., 1981, “Dynamics of Wakes Downstream of Wind Turbine Towers,” NASA-CP-2185.
8.
Savino, J. M., and Wagner, L. H., 1976, “Wind Tunnel Measurements of the Tower Shadow on Models of the ERDA/NASA 100 Kw Wind Turbine Tower,” NASA TM-X-73548.
9.
Simms, D., Schreck, S., Hand, M., and Fingersh, L. J., 2001, “NREL Unsteady Aerodynamics Experiment in the NASA-Ames Wind Tunnel: A Comparison of Predictions to Measurements,” NICH Report No. TP-500-29494.
10.
Hansen, A. C., 1992, “Yaw Dynamics of Horizontal Axis Wind Turbines,” NREL/TP-442-4822, National Renewable Energy Labs, U.S.
11.
Wang
,
T.
, and
Coton
,
F. N.
,
1999
, “
An Unsteady Aerodynamic Model for HAWT Performance Including Tower Shadow Effects
,”
Wind Eng.
,
23
, pp.
255
268
.
12.
Wang
,
T.
, and
Coton
,
F. N.
,
2001
, “
A High Resolution Tower Shadow Model for Downwind Wind Turbines
,”
J. Wind. Eng. Ind. Aerodyn.
,
89
, pp.
873
892
.
13.
Duque, E. P. N., van Dam, C. P., and Hughes, S. C., 1998, “Navier-Stokes Simulations of the NREL Combined Experiment Phase II rotor,” 17th ASME Wind Energy Symposium, Reno.
14.
Leishman, J. G., 2002, “Challenges in Modeling the Unsteady Aerodynamics of Wind Turbines,” 21st ASME Wind Energy Symposium, Reno.
15.
Wang
,
T.
, and
Coton
,
F. N.
,
2000
, “
Numerical Simulation of Wind Tunnel Wall Effects on Wind Turbine Flows
,”
Wind Energy
,
3
(
3
), pp.
135
148
.
16.
Munduate
,
X.
, and
Coton
,
F. N.
,
2000
, “
An Aerodynamic Method for the Preliminary Design of Horizontal Axis Wind Turbines
,”
Acta Politecnica-The Journal of Advanced Engineering Design
,
40
(
1
), pp.
59
65
.
17.
von Karman
,
T.
, and
Sears
,
W.
,
1938
, “
Airfoil Theory for Non-uniform Motion
,”
J. Aeronaut. Sci.
,
5
(
10
), pp.
379
390
.
18.
Sears
,
W. R.
, and
Sparks
,
B. O.
,
1941
, “
On the Reaction of an Elastic Wing to Vertical Gusts
,”
J. Aeronaut. Sci.
,
9
(
2
), pp.
64
71
.
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