A very detailed experimental case of a reversed profile in ground effect has been selected in the open literature where available experimental data have been used as reference data for the computational fluid dynamics (CFD) analysis. The CFD approach has been used to predict aerodynamic performance of the profile at different distances with respect to the ground: in the freestream case, there is no ground effect whereas in the low height the profile operation is limited by the stall on the suction surface. Moreover, the effect of a Gurney flap addition on flow distribution and performance has been numerically investigated. The experimental data have been used to setup and test the capabilities of the computational approach. With the addition of a Gurney flap, a significant flow unsteadiness is introduced that needs to be considered in the numerical approach. In this case, the configurations investigated are used to highlight the capabilities of CFD using Reynolds-averaged Naiver–Stokes (RANS) approach for its effective application as a tool for the detailed design of aerodynamic components to generate downforce for race cars.

References

1.
Katz
,
J.
,
1995
,
Race Car Aerodynamics: Designing for Speed
,
Bentley Publishers
,
Cambridge, MA
.
2.
Zhang
,
X.
,
Toet
,
W.
, and
Zerihan
,
J.
,
2006
, “
Ground Effect Aerodynamics of Race Cars
,”
ASME Appl. Mech. Rev.
,
59
(
1
), pp.
33
49
.
3.
Genua
,
E.
,
2009
, “
A CFD Investigation Into Ground Effect Aerodynamics
,”
M.S. thesis
, Delft University of Technology, Delft, Netherlands.
4.
Zerihan
,
J.
, and
Zhang
,
X.
,
2001
, “
Aerodynamics of Gurney Flaps on a Wing in Ground Effect
,”
AIAA J.
,
39
(
5
), pp.
772
780
.
5.
Jeffrey
,
D.
,
1998
, “
An Investigation Into the Aerodynamics of Gurney Flaps
,”
Ph.D. dissertation
, University of Southampton, Southampton, UK.
6.
Kuya
,
Y.
,
Takeda
,
K.
,
Zhang
,
X.
,
Beeton
,
S.
, and
Pandaleon
,
T.
,
2009
, “
Flow Physics of a Race Car Wing With Vortex Generators in Gourn Effect
,”
ASME J. Fluids Eng.
,
131
(
12
), p.
121103
.
7.
Kuya
,
Y.
,
Takeda
,
K.
,
Zhang
,
X.
,
Beeton
,
S.
, and
Pandaleon
,
T.
,
2009
, “
Flow Separation Control on a Race Car Wing With Vortex Generators in Ground Effect
,”
ASME J. Fluids Eng.
,
131
(
12
), p.
121102
.
8.
Kuya
,
Y.
,
Takeda
,
K.
, and
Zhang
,
X.
,
2010
, “
Computational Investigation of a Race Car Wing With Vortex Generators in Ground Effect
,”
ASME J. Fluids Eng.
,
132
(
2
), p.
021102
.
9.
Basso
,
D.
, and
Cravero
,
C.
,
2012
, “
A Numerical Simulation Approach for Atmospheric Pollution Evolution at Urban Scale to Help Traffic Control Decision Making
,”
ASME
Paper No. ESDA2012-82028.
10.
Cravero
,
C.
, and
Satta
,
A.
,
2003
, “
Comparison of Semi Empirical Correlations and a Navier–Stokes Method for the Overall Performance Assessment of Turbine Cascades
,”
ASME J. Fluids Eng.
,
125
(
2
), pp.
308
314
.
11.
Kroll
,
N.
, and
Fassbender
,
J. K.
,
2005
, “
MEGAFLOW-Numerical Flow Simulation for Aircraft Design
,”
Notes on Numerical Fluid Mechanics and Multidisciplinary Design
,
Springer Verlag
,
New York
.
12.
Dawes
,
W. N.
,
1988
, “
Development of a 3D Navier–Stokes Solver for Application to all Types of Turbomachinery
,”
ASME
Paper No. 88-GT-70.
13.
Dawes
,
W. N.
,
1993
, “
The Extension of a Solution Adaptive Three-Dimensional Viscous Flow Solver Towards Geometries of Arbitrary Complexity
,”
ASME J. Turbomach.
,
115
(
2
), pp.
283
295
.
14.
Martinelli
,
L.
, and
Jameson
,
A.
,
1988
, “
Validation of a Multigrid Method for the Reynolds Averaged Equations
,”
AIAA
Paper No. 88-0414.
15.
Cravero
,
C.
,
Macelloni
,
P.
, and
Briasco
,
G.
,
2012
, “
Three-Dimensional Design Optimization of Multi Stage Axial Flow Turbines Using a RSM Based Approach
,”
ASME
Paper No. GT2012-68040.
16.
Bruna
,
D.
,
Cravero
,
C.
,
Turner
,
M.
, and
Merchant
,
A.
,
2012
, “
An Educational Software Suite for Teaching Design Strategies for Multistage Axial-Flow Compressors
,”
ASME J. Turbomach.
,
134
(
5
), p.
051010
.
17.
Mahon
,
S.
, and
Zhang
,
X.
,
2005
, “
Computational Analysis of Pressure and Wake Characteristics of an Airfoil in Ground Effect
,”
ASME J. Fluids Eng.
,
127
(
2
), pp.
290
298
.
18.
Mahon
,
S.
, and
Zhang
,
X.
,
2006
, “
Computational Analysis of an Inverted Double-Element Airfoil in Ground Effect
,”
ASME J. Fluids Eng.
,
128
(
6
), pp.
1172
1180
.
19.
Doig
,
G.
,
Barber
,
T. J.
, and
Neely
,
A. J.
,
2011
, “
The Influence of Compressibility on the Aerodynamics of an Inverted Wing in Ground Effect
,”
ASME J. Fluids Eng.
,
133
(
6
), p.
061102
.
20.
Zerihan
,
J.
,
2001
, “
An Investigation Into Aerodynamics of Wings in Ground Effect
,”
Ph.D. thesis
, University of Southampton, Southampton, UK.
21.
Zerihan
,
J.
, and
Zhang
,
X.
,
2000
, “
Aerodynamics of a Single Element Wing in Ground Effect
,”
AIAA
Paper No. 2000-0650.
22.
Ansys
,
2016
,
Ansys, Inc.
, Canonsburg, PA.
23.
Menter
,
F. R.
,
1994
, “
Two-Equation Eddy Viscosity Turbulence Models for Engineering Applications
,”
AIAA J.
,
32
(
8
), pp.
1598
1605
.
24.
Wilcox
,
D. C.
,
1988
, “
Multiscale Models for Turbulent Flows
,”
AIAA J.
,
26
(
11
), pp.
1311
1320
.
25.
Menter
,
F. R.
,
Langtry
,
R. B.
,
Likki
,
S. R.
,
Suzen
,
Y. B.
,
Huang
,
P. G.
, and
Volker
,
S.
,
2006
, “
A Correlation-Based Transition Model Using Local Variables—Part I: Model Formulation
,”
ASME J. Turbomach.
,
128
(
3
), pp.
413
422
.
26.
Cole
,
J. A.
,
Vieira
,
B. A. O.
,
Coder
,
J. G.
,
Premi
,
A.
, and
Maughmer
,
M. D.
,
2011
, “
An Experimental Investigation Into the Effect of Gurney Flaps on Various Airfoils
,”
49th AIAA Aerospace Science Meeting Including the New Horizons Forum and Aerospace Exposition
, Orlando, FL, Jan. 4–7, Paper No.
AIAA
2011-1250.
27.
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
.
28.
Roberts
,
L. S.
,
Finnis
,
M. V.
, and
Knowles
,
K.
,
2016
, “
Characteristics of Boundary-Layer Transition and Reynolds-Number Sensitivity of Three-Dimensional Wings of Varying Complexity Operating in Ground Effect
,”
ASME J. Fluids Eng.
,
138
(
9
), p.
091106
.
You do not currently have access to this content.