Issue Section:
Technical Briefs
1.
Ashforth-Frost
S.
Jambunathan
K.
1996
, “Effect of Nozzle Geometry and Semi-Confinement on the Potential Core of a Turbulent Axisymmetric Free Jet
,” Int. Comm. Heat Mass Transfer
, Vol. 23
, pp. 152
–162
.2.
den Ouden, C., and Hoogendoorn, C. J., 1974, “Local Convective Heat Transfer Coefficient for Jets Impinging on a Plate: Experiments Using a Liquid Crystal Technique,” Procs. 5th Int. Heat Transfer Conf., Tokyo, Japan, Vol. 5, pp. 293–297.
3.
Fitzgerald, J. A., and Garimella, S. V., 1996, “Flow Field Measurements in Confined and Submerged Jet Impingement,” Procs. ASME IMECE, Atlanta, Georgia, HTD-Vol. 333 (2), pp. 121–129.
4.
Gardon
R.
Akfirat
J. C
1965
, “The Role of Turbulence in Determining the Heat-Transfer Characteristics of Impinging Jets
,” Int. J. Heat Mass Transfer
, Vol. 8
, pp. 1261
–1272
.5.
Garimella
S. V.
Nenaydykh
B.
1996
, “Nozzle-Geometry Effects in Liquid Jet Impingement Heat Transfer
,” Int. J. Heat Mass Transfer
, Vol. 39
, No. 14
, pp. 2915
–2923
.6.
Garimella
S. V.
Rice
R. A.
1995
, “Confined and Submerged Liquid Jet Impingement Heat Transfer
,” ASME JOURNAL OF HEAT TRANSFER
, Vol. 117
, pp. 871
–877
.7.
Hoogendoorn
C. J.
1977
, “The Effect of Turbulence on Heat Transfer at a Stagnation Point
,” Int. J. Heat Mass Transfer
, Vol. 20
, pp. 1333
–1338
.8.
Obot, N. T., Douglas, W. J. M., and Mujumdar, A. S., 1982, “Effect of Semi-Confinement on Impingement Heat Transfer,” Procs. 7th Int. Heat Transfer Conf., Vol. 3, pp. 395–400.
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