Sage Journals: Discover world-class research

Abstract

an experimental investigation has been undertaken to study the effect of a wavy crossflow on a plane jet discharged vertically downwards in a water channel. Two groups of experiments were performed: one group for a jet discharged into a uniform crossflow; the second group for a jet discharged into a wavy crossflow. Experiments were conducted for four jet-to-crossflow-velocity ratios. For each experiment, measurements using a laser Doppler anemometry system were made at six stations downstream of the exit of the jet nozzle. During the course of the experiments, the channel flow velocity was maintained fairly constant, and the wave generated in the channel was not very steep. The results revealed that the oscillatory motion associated with the waves has a significant effect on both the mean and the turbulent velocity fields. The mean velocity profiles were found to have no maximum value, compared with those of a uniform crossflow. The effect was most pronounced in the zone of flow establishment, where a region of intense fluid mixing arises, resulting in a significant shortening of the zone and a rapid development of the jet flow.

Keywords

slot jets water jets wavy crossflow jet in crossflow deflected jets

Get full access to this article

View all access options for this article.

References

Morton

B. R.

Ibbetson

Jets deflected in a crossflow. Expl Thermal and Fluid Sci., 1996, 12, 112–133.

Alton

B. W.

Davidson

G. A.

Slawson

P. R.

Comparison of measurements and integral model predictions of hot water plume behavior in a crossflow. J. Atmospheric Environ., 1993, 27A(4), 589–598.

Slawson

P. R.

Csanady

G. T.

On the mean path of buoyant, bent-over chimney plumes. J. Fluid Mechanics, 1967, 28, 311–322.

Huq

Dhanak

M. R.

The bifurcation of circular jets in crossflow. Physics of Fluids, 1996, 8(3), 754–763.

Kelso

R. M.

Lim

T. T.

Perry

A. E.

An experimental study of round jets cross-flow. J. Fluid Mechanics, 1996, 306, 111–144.

Sherif

S. A.

Pletcher

R. H.

Measurements of the flow and turbulent characteristics of round jets in crossflow. J. Fluids Engng, 1989, 111, 165–171.

Mousa

Z. M.

Trischka

J. W.

Eskinazi

The near field in the mixing of a round jet with a cross-stream. J. Fluid Mechanics, 1977, 80, 49–80.

Sherif

S. A.

Pletcher

R. H.

Measurements of the thermal characteristics of heated turbulent jets in crossflow. J. Heat Transfer, 1989, 111, 897–903.

Sherif

S. A.

Pletcher

R. H.

Measurements of the thermal chracteristics of cooled jets discharged into heated cross-flowing ambient. In the 32nd AIAA Aerospace Science Meeting and Exhibit, Reno, Nevada, 1994, AIAA paper 94-0351.

10.

Nishiyama

Ota

Hamada

Takahashi

Kamiyama

Temperature field of a slightly heated jet in a cross flow. Warme-und Stoffubertragung, 1990, 25, 369–375.

11.

Campbell

J. F.

Schetz

J. A.

Flow properties of submerged heated effluents in a waterway. AIAA paper 72-79, 1972.

12.

Eiff

O. S.

Keffer

J. F.

On the structure in the near-wake region of an elevated turbulent jet in a crossflow. J. Fluid Mechanics, 1997, 333, 161–196.

13.

Huang

R. F.

Chang

J. M.

Coherent structure in a combusting jet in a crossflow. Am. Inst. Aeronaut. Astronaut. J., 1994, 32(6), 1120–1125.

14.

Lee

S. W.

Lee

J. S.

S. T.

Experimental study on the flow characteristics of streamwise inclined jets in crossflow on flat plate. Trans. ASME, J. Turbomachinery, 1994, 116, 97–105.

15.

Humber

A. J.

Grandmaison

E. W.

Pollard

Mixing between a sharp-edged rectangular jet and a transverse crossflow. Int. J. Heat and Mass Transfer, 1993, 36(18), 4307–4316.

16.

Sherif

S. A.

Pletcher

R. H.

Jet-wake characteristics of heated turbulent jets in crossflow. J. Thermophysics, 1991, 5(2), 181–191.

17.

Blanchard

J. N.

Brunet

Merlen

Influence of a counter rotating vortex pair on the stability of a jet in a cross flow: An experimental study by flow visualizations. Exp. in Fluids, 1999, 26(1), 63–74.

18.

Brizzi

L. E.

Foucault

Bousgarbies

J. L.

Vortices organization in the near field of a jet issuing normally into a crossflow. In Proceedings of 1st International Symposium on Flow Visualization and Image Processing, Honolulu, Hawaii, 23–26 February 1997, Vol. 1, pp. 115–119.

19.

J. M.

Vakili

A. D.

F. M.

Investigation of the reacting flow of nonsymmetric jets in crossflow. Am. Inst. Aeronaut. Astronaut. J., 1988, 26, 940–947.

20.

Weston

R. P.

Thames

F. C.

Properties of aspect-ratio-4 rectangular jets in a subsonic crossflow. J. Aircraft, 1979, 16, 701–707.

21.

Kavsaoglu

M. S.

Schetz

J. A.

Jakubowski

A. K.

Rectangular jets in a crossflow. J. Aircraft, 1989, 26, 793–804.

22.

Sivadas

Pani

B. S.

Bütefisch

K. A.

Meier

G. E. A.

Flow visualization studies on growth of area of deflected jets. Exp. in Fluids, 1997, 23(2), 105–112.

23.

Dean

R. G.

Dalrymple

R. A.

Water Wave Mechanics for Engineers and Scientists, 1991 (World Scientific Publishing, Singapore).

24.

Koole

Swan

Measurements of a 2-D non-buoyant jet in a wave environment. Coastal Engng, 1994, 24, 151–169.

25.

Chin

D. A.

Influence of surface waves on outfall dilution. ASCE J. Hydraulic Engng, 1987, 113, 1006–1017.

26.

Sharp

J. J.

The effect of waves on buoyant jets. Proc. Instn Civ. Engrs, 1986, 81(2), 471–475.

27.

ANSI/ASME PTC 19.1-1985, Part 1. Measurement Uncertainty, 1985 (ASME, New York).

28.

Moffat

R. J.

Describing the uncertainties in experimental results. Expl. Thermal and Fluid Sci., 1988, 1, 3–17.

29.

Abramovich

G. N.

The Theory of Turbulent Jets, 1963 (MIT Press, Cambridge, Massachusetts).

30.

Hussein

H. J.

Capp

S. P.

George

W. K.

Velocity measurements in a high-Reynolds-number, momentum-conserving, axisymmetrical, turbulent jet. J. Fluid Mechanics, 1994, 258, 31–75.

Diffusion characteristics of a plane jet discharged in a wavy crossflowing stream

Abstract

Abstract

Keywords

Get full access to this article

References