Jet impingement cooling has been studied extensively as this finds applications in the areas of reactor safety, electronic cooling, etc. Here, the convective heat transfer process between the air jet impingement on a uniformly heated inclined flat plate is studied numerically. In this numerical study, 3D simulations are carried out using commercial CFD code to investigate the effect of angle of inclination of plate, Reynolds number, and distance between the nozzle exit and the plate on the heat transfer characteristics. V2F model has been used to model turbulence for various nozzle–plate distance and Reynolds number. It can be concluded that V2F model predicts the Nusselt number variation on the plate satisfactorily. It is observed that point of maximum heat transfer is at the stagnation point in case of vertical jet impinging on a horizontal plate, while it shifts away from the point of impingement for the case of a vertical jet impinging on an inclined flat surface. The shift is toward the “compression side” or the “uphill side” of the air jet. The results are validated with experimental data from the literature. Detailed analysis of local heat transfer coefficients, velocity contours, temperature contours, and Nusselt number variations on the flat plate is presented.

References

1.
Gauntner
,
J. W.
,
Livingood
,
J. N. B.
, and
Hrycak
,
P.
,
1970
, “
Survey of Literature on Flow Characteristics of a Single Turbulent Jet Impinging on a Flat Plate
,”
NASA Technical Note
, Report No. NASA TN D-5652.
2.
Martin
,
H.
,
1977
, “
Heat and Mass Transfer Between Impinging Gas Jets and Solid Surfaces
,”
Adv. Heat Transfer
,
13
, pp.
1
60
.
3.
Jambunathan
,
K.
,
Lai
,
E.
,
Moss
,
M. A.
, and
Button
,
B. L.
,
1992
, “
A Review of Heat Transfer Data for Single Circular Jet Impingement
,”
Int. J. Heat Fluid Flow
,
13
(
2
), pp.
106
115
.
4.
Goldstein
,
R. J.
, and
Franchett
,
M. E.
,
1988
, “
Heat Transfer From a Flat Surface to an Oblique Impinging Jet
,”
ASME J. Heat Transfer
,
110
(
1
), pp.
84
89
.
5.
Sparrow
,
E. M.
, and
Lovell
,
B. J.
,
1980
, “
Heat Transfer Characteristics of an Obliquely Impinging Circular Jet
,”
ASME J. Heat Transfer
,
102
(
2
), pp.
202
209
.
6.
Yan
,
X.
, and
Saniel
,
N.
,
1997
, “
Heat Transfer From an Obliquely Impinging Circular Air Jet to Flat Plate
,”
Int. J. Heat Fluid Flow
,
18
(
6
), pp.
591
599
.
7.
Lienhard
,
J. H.
,
2006
, “
Heat Transfer by Impingement of Circular Free-Surface Liquid Jets
,” 18th National and 7th ISHMT—
ASME
Heat and Mass Transfer Conference
, Jan. 4–6.
8.
Beltaos
,
S.
,
1975
, “
Oblique Impingement of Circular Turbulent Jet
,”
J. Hydraul. Res.
,
14
(1), pp.
17
36
.
9.
Lyttle
,
D.
, and
Webb
,
B. W.
,
1994
, “
Air Jet Impingement Heat Transfer at Low Nozzle-Plate Spacing
,”
Int. J. Heat Mass Transfer
,
37
(
12
), pp.
1687
1697
.
10.
Huang
,
L.
, and
El-Genk
,
M.
,
1994
, “
Heat Transfer of an Impinging Jet on a Flat Surface
,”
Int. J. Heat Mass Transfer
,
37
(
13
), pp.
1915
1923
.
11.
Mohanty
,
A. K.
, and
Tawfek
,
A.
,
1992
, “
Heat Transfer Due to a Round Jet Impinging Normal to a Flat Surface
,”
Int. J. Heat Mass Transfer
,
36
(
6
), pp.
1639
1647
.
12.
Singh
,
D.
,
Premachandran
,
B.
, and
Kohli
,
S.
,
2013
, “
Numerical Simulation of the Jet Impingement Cooling of a Circular Cylinder
,”
Numer. Heat Transfer, Part A
,
64
(
2
), pp.
153
185
.
13.
Baughn
,
J. W.
, and
Shimizu
,
S.
,
1989
, “
Heat Transfer Measurements From a Surface With Uniform Heat Flux and an Impinging Jet
,”
ASME J. Heat Transfer
,
111
(
4
), pp.
1096
1098
.
14.
Hrycak
,
P.
,
1983
, “
Heat Transfer From Round Impinging Jets to a Flat Plate
,”
Int. J. Heat Mass Transfer
,
26
(
12
), pp.
1857
1865
.
15.
Katti
,
V.
, and
Prabhu
,
S. V.
,
2008
, “
Experimental Study and Theoretical Analysis of Local Heat Transfer Distribution Between Smooth Flat Surface and Impinging Air Jet From a Circular Straight Pipe Nozzle
,”
Int. J. Heat Mass Transfer
,
51
(17–18), pp.
4480
4495
.
16.
Zuckerman
,
N.
, and
Lior
,
N.
,
2005
, “
Impingement Heat Transfer: Correlations and Numerical Modeling
,”
ASME J. Heat Transfer
,
127
(
5
), pp.
544
552
.
17.
Gardon
,
R.
, and
Cobonpue
,
J.
,
1962
, “
Heat Transfer Between a Flat Plate and Jets of Air Impinging on It
,”
International Developments in Heat Transfer International Heat Transfer Conference
, ASME, pp.
454
460
.
18.
Gardon
,
R.
, and
Akfirat
,
C.
,
1965
, “
The Role of Turbulence in Determining the Heat Transfer Characteristics of Impinging Jets
,”
Int. J. Heat Mass Transfer
,
8
(
10
), pp.
1261
1272
.
19.
Gardon
,
R.
, and
Akfirat
,
C.
,
1966
, “
Heat Transfer Characteristics of Impinging Two Dimensional Air Jets
,”
ASME J. Heat Transfer
,
88
(
1
), pp.
101
108
.
20.
Attalla
,
M.
, and
Salem
,
M.
,
2004
, “
Heat Transfer From a Flat Surface to an Inclined Impinging Jet
,”
Heat Mass Transfer
,
50
(7), pp.
915
922
.
21.
O'Donovan
,
T. S.
, and
Muray
,
D. B.
,
2007
, “
Jet Impingement Heat Transfer—Part I: Mean and Root-Mean-Square Heat Transfer and Velocity Distributions
,”
Int. J. Heat Mass Transfer
,
50
(17–18), pp.
3291
3301
.
22.
ANSYS, 2011, “
FLUENT V2F Turbulence Model Manual
,” ANSYS, Inc., Canonsburg, PA.
23.
Burmeister
,
L. C.
,
1993
,
Convective Heat Transfer
, 2nd ed.,
Wiley
, New York.
24.
Bejan
,
A.
,
2004
,
Convection Heat Transfer
, 3rd ed.,
Wiley
,
Hoboken, NJ
.
25.
Material Measurement Laboratory, 2016, “Thermophysical Properties of Fluid Systems,” National Institute of Standards and Technology, Gaithersburg, MD, http://webbook.nist.gov/chemistry/fluid/
26.
Livingood
,
J. N. B.
, and
Hrycak
,
P.
,
1970
, “
Impingement Heat Transfer From Turbulent Air Jets to Flat Plates—A Literature Survey
,”
NASA Technical Memorandum
, Report No. NASA TM X-2778.
You do not currently have access to this content.