The natural convection boundary layer adjacent to an inclined plate subject to sudden cooling boundary condition has been studied. It is found that the cold boundary layer adjacent to the plate is potentially unstable to Rayleigh–Bénard instability if the Rayleigh number exceeds a certain critical value. A scaling relation for the onset of instability of the boundary layer is achieved. The scaling relations have been developed by equating important terms of the governing equations based on the development of the boundary layer with time. The flow adjacent to the plate can be classified broadly into a conductive, a stable convective, or an unstable convective regime determined by the Rayleigh number. Proper scales have been established to quantify the flow properties in each of these flow regimes. An appropriate identification of the time when the instability may set in is discussed. A numerical verification of the time for the onset of instability is also presented in this study. Different flow regimes based on the stability of the boundary layer have been discussed with numerical results.

1.
Nachtsheim
,
P. R.
, 1963, “
Stability of Free Convection Boundary Layer Flows
,”
NASA
Technical Report No. TN D-2089.
2.
Hieber
,
C. A.
, and
Gebhart
,
B.
, 1971, “
Stability of Vertical Natural Convection Boundary Layers: Some Numerical Solutions
,”
J. Fluid Mech.
0022-1120,
48
, pp.
625
646
.
3.
Paul
,
M. C.
,
Rees
,
D. A. S.
, and
Wilson
,
M.
, “
Receptivity of Free Convective Flow From a Heated Surface: Nonlinear Waves
,”
Computational Thermal Sciences
1940-2554, in press.
4.
Paul
,
M. C.
,
Rees
,
D. A. S.
, and
Wilson
,
M.
, 2008, “
Thermal Receptivity of Free Convective Flow From a Heated Surface: Linear Waves
,”
Int. J. Therm. Sci.
1290-0729,
47
, pp.
1382
1392
.
5.
Paul
,
M. C.
,
Rees
,
D. A. S.
, and
Wilson
,
M.
, 2005, “
The Influence of Higher Order Effects on the Linear Wave Instability of Vertical Free Convective Boundary Layer Flow
,”
Int. J. Heat Mass Transfer
0017-9310,
48
, pp.
809
817
.
6.
Paul
,
M. C.
, and
Rees
,
D. A. S.
, 2008, “
Numerical Investigation of the Linear Stability of a Free Convective Boundary Layer Flow Using a Thermal Disturbance With a Slowly Increasing Frequency
,”
ASME J. Heat Transfer
0022-1481,
130
, p.
122501
.
7.
Haaland
,
S. E.
, and
Sparrow
,
E. M.
, 1973, “
Vortex Instability of Natural Convection Flow on Inclined Surfaces
,”
Int. J. Heat Mass Transfer
0017-9310,
16
, pp.
2355
2367
.
8.
Sparrow
,
E. M.
, and
Husar
,
R. B.
, 1969, “
Longitudinal Vortices in Natural Convection Flow on Inclined Plates
,”
J. Fluid Mech.
0022-1120,
37
, pp.
251
255
.
9.
Chen
,
T. S.
, and
Tzuoo
,
K. L.
, 1982, “
Vortex Instability of Free Convection Flow Over Horizontal and Vertical Surfaces
,”
ASME Trans. J. Heat Transfer
0022-1481,
104
, pp.
637
643
.
10.
Ganesan
,
P.
, and
Palani
,
G.
, 2003, “
Natural Convection Effects on Impulsively Started Inclined Plate With Heat and Mass Transfer
,”
Heat Mass Transfer
0947-7411,
39
, pp.
277
283
.
11.
Ganesan
,
P.
, and
Palani
,
G.
, 2004, “
Finite Difference Analysis of Unsteady Natural Convection MHD Flow Past an Inclined Plate With Variable Surface Heat and Mass Flux
,”
Int. J. Heat Mass Transfer
0017-9310,
47
, pp.
4449
4457
.
12.
Said
,
S. A. M.
,
Habib
,
M. A.
,
Badr
,
H. M.
, and
Anwar
,
S.
, 2005, “
Turbulent Natural Convection Between Inclined Isothermal Plates
,”
Comput. Fluids
0045-7930,
34
, pp.
1025
1039
.
13.
Lloyd
,
J. R.
, and
Sparrow
,
E. M.
, 1970, “
On the Instability of Natural Convection Flow on Inclined Plates
,”
J. Fluid Mech.
0022-1120,
42
, pp.
465
470
.
14.
Lloyd
,
J. R.
, 1974, “
Vortex Wavelength in the Transition Flow Adjacent to Upward Facing Inclined Isothermal Surfaces
,”
Proceedings of the Fifth International Heat Transfer Conference
.
15.
Cheng
,
K. C.
, and
Kim
,
Y. M.
, 1988, “
Flow Visualization Studies on Vortex Instability of Natural Convection Flow Over Horizontal and Slightly Inclined Constant-Temperature Plates
,”
Trans. ASME, Ser. C: J. Heat Transfer
0022-1481,
110
, pp.
608
615
.
16.
Shaukatullah
,
H.
, and
Gebhart
,
B.
, 1978, “
An Experimental Investigation of Natural Convection Flow on an Inclined Surface
,”
Int. J. Heat Mass Transfer
0017-9310,
21
, pp.
1481
1490
.
17.
Iyer
,
P. A.
, and
Kelly
,
R. E.
, 1974, “
The Stability of the Laminar Free Convection Flow Induced by a Heated Inclined Plate
,”
Int. J. Heat Mass Transfer
0017-9310,
17
, pp.
517
525
.
18.
Saha
,
S. C.
,
Lei
,
C.
, and
Patterson
,
J. C.
, 2007, “
Scaling Analysis of the Thermal Boundary Layer Adjacent to an Abruptly Heated Inclined Flat Plate
,”
Proceedings of the 16th Australasian Fluid Mechanics Conference
, University of Queensland, Queensland, Australia.
19.
Saha
,
S. C.
,
Lei
,
C.
, and
Patterson
,
J. C.
, 2007, “
On the Natural Convection Boundary Layer Adjacent to an Inclined Flat Plate Subject to Ramp Heating
,”
Proceedings of the 16th Australasian Fluid Mechanics Conference
, University of Queensland, Queensland, Australia.
20.
Saha
,
S. C.
, 2008, “
Natural Convection Adjacent to an Inclined Flat Plate and in an Attic Space Under Various Thermal Forcing Conditions
,” Ph.D. thesis, James Cook University, Australia.
21.
Lei
,
C.
, and
Patterson
,
J. C.
, 2005, “
Unsteady Natural Convection in a Triangular Enclosure Induced by Surface Cooling
,”
Int. J. Heat Fluid Flow
0142-727X,
26
, pp.
307
321
.
22.
Lei
,
C.
, and
Patterson
,
J. C.
, 2002, “
Unsteady Natural Convection in a Triangular Enclosure Induced by Absorption of Radiation
,”
J. Fluid Mech.
0022-1120,
460
, pp.
181
209
.
23.
Chandrasekhar
,
S.
, 1961,
Hydrodynamic and Hydromagnetic Stability
,
Dover
,
New York
.
24.
Drazin
,
P. G.
, and
Reid
,
W. H.
, 1981,
Hydrodynamic Stability
,
Cambridge University Press
,
Cambridge, England
.
25.
Kurzweg
,
U. H.
, 1970, “
Stability of Natural Convection Within an Inclined Channel
,”
Trans. ASME, Ser. C: J. Heat Transfer
0022-1481,
92
, pp.
190
191
.
26.
Chen
,
Y. M.
, and
Pearlstein
,
A. J.
, 1989, “
Stability of Free-Convection Flows of Variable-Viscosity Fluids in Vertical and Inclined Slots
,”
J. Fluid Mech.
0022-1120,
198
, pp.
513
541
.
27.
Leonard
,
B. P.
and
Mokhtari
,
S.
, 1990, “
ULTRA-SHARP Nonoscillatory Convection Schemes for High-Speed Steady Multidimensional Flow
,”
NASA
Report No. TM 1-2568 (ICOMP-90-12).
28.
Lei
,
C.
, and
Patterson
,
J. C.
, 2003, “
A Direct Stability Analysis of a Radiation-Induced Natural Convection Boundary Layer in a Shallow Wedge
,”
J. Fluid Mech.
0022-1120,
480
, pp.
161
184
.
You do not currently have access to this content.