Naphthalene sublimation experiments were conducted to study heat transfer for flow through blockages with holes in an internal cooling passage near the trailing edge of a gas turbine airfoil. The cooling passage was modeled as two rectangular channels whose heights decreased along the main flow direction. The air made a right-angled turn before passing through two blockages with staggered holes in each channel and left the channel through an exit that was partially blocked by periodic lands with rounded leading edges. There were ten holes along each blockage and all of the holes had rounded edges. Local heat (mass) transfer was measured and overall heat (mass) transfer results were obtained, on the exposed surfaces of one of the walls downstream of the two blockages, for Reynolds numbers (based on the hydraulic diameter of the channel at the upstream surface of the first blockage) between 5000 and 36,000. The results showed that the blockages with the larger hole-to-channel cross-sectional area ratio in one of the two test sections enhanced the heat (mass) transfer downstream of the blockages more than the blockages with the smaller open area ratio in the second test section. For the geometric configurations and flow conditions studied, the average heat (mass) transfer was higher downstream of the second blockage than downstream of the first blockage. The configurations of the inlet channel and the exit slots considered in this study did not significantly affect the local heat (mass) transfer distributions or the average heat (mass) transfer downstream of the blockages.

1.
Han
,
J. C.
,
Dutta
,
S.
, and
Ekkad
,
S. V.
, 2000,
Gas Turbine Heat Transfer and Cooling Technology
,
Taylor & Francis
,
New York
.
2.
Kukreja
,
R. T.
, and
Lau
,
S. C.
, 1998, “
Distributions of Local Heat Transfer Coefficient on Surfaces With Solid and Perforated Ribs
,”
J. Enhanced Heat Transfer
1065-5131,
5
(
1
), pp.
9
21
.
3.
Hwang
,
J. J.
,
Lia
,
T. Y.
, and
Liou
,
T. M.
, 1998, “
Effect of Fence Thickness on Pressure Drop and Heat Transfer in a Perforated-Fenced Channel
,”
Int. J. Heat Mass Transfer
0017-9310,
41
(
4–5
), pp.
811
816
.
4.
Liou
,
T. M.
, and
Chen
,
S. H.
, 1998, “
Turbulent Heat and Fluid Flow in a Passage Distributed by Detached Perforated Ribs of Different Heights
,”
Int. J. Heat Mass Transfer
0017-9310,
41
(
12
), pp.
1795
1806
.
5.
Buchlin
,
J. M.
, 2002, “
Convective Heat Transfer in a Channel With Perforated Ribs
,”
Int. J. Therm. Sci.
1290-0729,
41
, pp.
332
340
.
6.
Moon
,
S. W.
, and
Lau
,
S. C.
, 2003, “
Heat Transfer Between Blockages With Holes in a Rectangular Channel
,”
ASME J. Heat Transfer
0022-1481,
125
, pp.
587
594
.
7.
Lau
,
S. C.
,
Cervantes
,
J.
,
Han
,
J. C.
,
Rudolph
,
R. J.
, and
Flannery
,
K.
, 2003, “
Measurements of Wall Heat (Mass) Transfer for Flow Through Blockages With Round and Square Holes in a Wide Rectangular Channel
,”
Int. J. Heat Mass Transfer
0017-9310,
46
, pp.
3991
4001
.
8.
Cervantes
,
J.
, 2002, “
Measurements of Wall Heat (Mass) Transfer for Flow Through Blockages With Round and Square Holes in a Wide Rectangular Channel
,” M.S. thesis, Texas A&M University, College Station, TX.
9.
Choi
,
J.
, 2004, “
An Experimental Investigation of Turbine Blade Heat Transfer and Turbine Blade Trailing Edge Cooling
,” dissertation, Texas A&M University, College Station, TX.
10.
Ambrose
,
D.
,
Lawrenson
,
I. J.
, and
Sprake
,
C. H. S.
, 1975, “
The Vapor Pressure of Naphthalene
,”
J. Chem. Thermodyn.
0021-9614,
7
, pp.
1172
1176
.
11.
Goldstein
,
R. J.
, and
Cho
,
H. H.
, 1995, “
A Review of Mass Transfer Measurements Using Naphthalene Sublimation
,”
Exp. Therm. Fluid Sci.
0894-1777,
10
, pp.
416
434
.
12.
Eckert
,
E. R. G.
, 1976, “
Analogies to Heat Transfer Processes
,”
Measurements in Heat Transfer
,
E. R. G.
Eckert
and
R. J.
Goldstein
eds.,
Hemisphere
,
New York
,
397
423
.
13.
Incropera
,
F. P.
, and
DeWitt
,
D. P.
, 2002,
Fundamentals of Heat and Mass Transfer
, 5th ed.,
Wiley
,
New York
.
14.
Coleman
,
H. W.
, and
Steele
,
W. G.
, 1989,
Experimentation and Uncertainty Analysis for Engineers
,
Wiley
,
New York
.
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