An experimental study of air supply to bottom cavities stabilized within a recess under a horizontal surface has been carried out in a specially designed water tunnel. The air supply necessary for creating and maintaining an air cavity in steady and gust flows has been determined over a wide range of speed. Flux-free ventilated cavitation at low flow speeds has been observed. Stable multiwave cavity forms at subcritical values of Froude number were also observed. It was found that the cross-sectional area of the air supply ducting has a substantial effect on the air demand. Air supply scaling laws were deduced and verified with the experimental data obtained.

1.
Ivanov
,
A. N.
, and
Kalyzhny
,
V. G.
, 1996, “
The Perspectives of Applications of Ventilated Cavities on Naval Combat Ships
,”
Int. Conf. on 300th Anniversary Russian Navy
, St. Petersburg,
A2
, pp.
41
45
.
2.
Amromin
,
E. L.
,
Kopriva
,
J.
,
Arndt
,
R. E. A.
, and
Wosnik
,
M.
, 2006, “
Hydrofoil Drag Reduction by Partial Cavitation
,”
ASME J. Fluids Eng.
0098-2202,
128
, pp.
931
936
.
3.
Sverchkov
,
A. V.
, 2005, “
Prospects of Artificial Cavities in Resistance Reduction for Planning Catamarans With Asymmetric Demihulls
,”
International Conference on Fast Sea Transport FAST’2005
, St. Petersburg, Russia.
4.
Kopriva
,
J.
,
Arndt
,
R. E. A.
, and
Amromin
,
E. L.
, 2008, “
Improvement of Hydrofoil Performance by Partial Ventilated Cavitation in Steady Flow and Periodic Gusts
,”
ASME J. Fluids Eng.
0098-2202,
130
, p.
031301
.
5.
Amromin
,
E. L.
, 2007, “
Design of Bodies With Drag Reduction by Partial Cavitation as an Inverse Ill-Posed Problem for Velocity Potential
,”
NMSH2007 Conference
, Ann Arbor, MI,
3
, p.
317
.
6.
Epshtein
,
L. A.
,
Blumin
,
V. I.
, and
Starodoubzev
,
P. S.
, 1961, “
Effects of Froude Number and Cavitation Number on the Sizes of Ventilated Cavity and the Air Flux
,”
Trudy TAGI
,
824
.
7.
Kuklinski
,
R.
,
Henoch
,
C.
, and
Castano
,
J.
, 2001 “
Experimental Studies of Ventilated Cavities on Dynamic Test Model
,”
CAV-2001 Symposium
, Pasadena, CA.
8.
Wosnik
,
M.
,
Schauer
,
T.
, and
Arndt
,
R. E. A.
, 2003, “
Experimental Study of a Ventilated Vehicle
,”
Fifth International Symposium on Cavitation (CAV2003)
, Osaka, Japan, Nov. 1–4.
9.
Kinzel
,
M. P.
,
Lindau
,
J. W.
,
Peltier
,
J.
,
Zajaczkowski
,
F.
,
Arndt
,
R. E. A.
,
Wosnik
,
M.
, and
Mallison
,
T.
, 2007, “
Computational Investigation of Air Entrainment, Hysteresis and Loading for Large-Scale, Buoyant Cavities
,”
NMSH2007 Conference
, Ann Arbor, MI,
3
, p.
306
.
10.
Ivanov
,
A. N.
, 1980,
Hydrodynamics of Developed Cavitation
,
Sudostroenie
,
Leningrad
.
11.
Butuzov
,
A. A.
, 1967, “
Artificial Cavitation Past a Twin Wedge Under Horizontal Wall
,”
Fluid Dyn.
0015-4628,
2
, pp.
837
839
.
12.
Schlichting
,
H.
, 1979,
Boundary Layer Theory
,
McGraw-Hill
,
New York
.
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