Delaying the onset of boundary layer transition has become a major research area in the last few years. This delay can be achieved by either active or passive control techniques. In the present paper, the effects of flexible or compliant structures on boundary layer stability and transition is studied. The Orr-Sommerfeld equation coupled to a beam equation representing the flexible structure is solved for a Blasius type boundary layer. A parametric study consisting of the beam thickness and material properties is carried out. In addition, the effect of fluid wall shear stress on boundary layer stability is analyzed. It is found that high density and high Young modulus materials behave like rigid structures and therefore do not alter the stability characteristic of the boundary layer. Whereas low density and low Young modulus materials are found to stabilize the boundary layer. High values of fluid wall shear stress are found to destabilize the boundary layer. Our results are in good agreement with those published in the literature.

References

1.
Wang
,
Z.
Yeo
,
K. S.
, and
Khoo
,
B.C.
, 2005, “
Spatial Direct Numerical Simulation of Transitional Boundary Layer Over Compliant Surfaces
,”
Comput. Fluids
,
34
, pp.
1062
1095
.
2.
Wiplier
,
O.
, and
Ehrenstein
,
U.
, 2000, “
Numerical Simulation of Linear and Nonlinear Disturbance Evolution in a Boundary Layer with Compliant Walls
,”
J. Fluids Struct.
,
14
, pp.
157
182
.
3.
Carpenter
,
P. W.
, and
Garrad
,
A. D.
, 1985, “
The Hydrodynamic Stability of Flow Over Kramer-Type Compliant Surfaces. Part 1: Tollmien-Schlicting Instabilities
,”
J. Fluid Mech.
,
155
, pp.
465
510
.
4.
Carpenter
,
P. W.
, and
Garrad
,
A. D.
, 1986, “
The Hydrodynamic Stability of Flow Over Kramer-Type Compliant Surfaces. Part 2: Flow-Induced Surface Instabilities
,”
J. Fluid Mech.
,
170
, pp.
199
232
.
5.
Lucey
,
A. D.
, and
Carpenter
,
P. W.
, 1992, “
A Numerical Simulation of a Compliant Wall and Inviscid Flow
,”
J. Fluid Mech.
,
234
, pp.
121
146
.
6.
Yeo
,
K. S.
, 1986,
“The Stability of Flow Over Flexible Surfaces,”
Ph.D. Dissertation, University of Cambridge.
7.
Joslin
,
R. D.
,
Morris
,
P. J.
, and
Carpenter
,
P. W.
, 1991, “
The Role of Three-Dimensional Instabilities in Compliant Wall Boundary-Layer Transition
,”
AIAA Journal
,
29
, p.
1603
.
8.
Joslin
,
R. D.
, 1990,
“The Effect of Compliant Walls on Three-Dimensional Primary and Secondary Instabilities in Boundary-Layer Transition,”
Ph.D. Thesis, the Pennsylvania State University.
9.
Hamadiche
,
M.
, and
Gad-El-Hak
,
M.
, 2002, “
Temporal Stability of Flow Through Viscoelastic Tubes
,”
J. Fluids Struct.
,
16
(
3
), pp.
331
359
.
10.
Yeo
,
K. S.
,
Zhao
,
H. Z.
, and
Khoo
,
B. C.
, 2001, “
Turbulent Boundary Layer Over a Compliant Surface: Absolute and Convective Instabilities
,”
J. Fluid Mech.
,
449
, pp.
141
168
.
11.
Gilbert
,
F.
, and
Backus
,
G.
, 1966,
Geophysics
,
31
, pp.
326
332
.
12.
Ng
,
B. S.
, and
Reid
,
W. H.
, 1979, “
An Initial Value Method for Eigenvalue Problems Using Compound Matrices
,”
J. Comput. Phys.
,
30
, pp.
125
136
.
13.
Ng
,
B. S.
, and
Reid
,
W. H.
, 1980, “
On the Numerical Solution of the Orr-Sommerfeld Problem: Asymptotic Initial Conditions for Shooting Methods
,”
J. Comput. Phys.
,
38
, pp.
275
293
.
14.
Ng
,
B. S.
, and
Reid
,
W. H.
, 1985, “
The Compound Matrix Method for Ordinary Differential Systems
,”
J. Comput. Phys.
,
58
, pp.
209
228
.
15.
AlMusleh
,
A. K. M.
, 2003,
“Stability Analysis of Boundary Layer Flows Over Flexible Structures,”
Master Thesis, The University of Alabama in Huntsville.
16.
Orszag
,
S. A.
, 1971, “
Accurate Solution of the Orr-Sommerfeld Equation
,”
J. Fluids Struct.
,
50
, pp.
689
703
.
17.
Mack
,
L. M.
, 1976, “
A Numerical Study of the Temporal Eigenvalue Spectrum of the Blasius Boundary Layer
,”
J. Fluids Struct.
,
73
, pp.
497
520
.
18.
Allen
,
L.
, 2001,
“Modeling Dolphin Hydrodynamics: The Numerical Analysis and Hydrodynamic Stability of Flow Past Compliant Surfaces,”
Ph.D. Dissertation, University of Surrey, The United Kingdom.
You do not currently have access to this content.