Issue Section:
Technical Briefs
1.
Biswas
G.
Mitra
N. K.
Fiebig
M.
1994
, “Heat Transfer Enhancement in Fin-Tube Heat Exchangers by Winglet Type Vortex Generators
,” Int. J. Heat Mass Transfer
, Vol. 37
, No. 2
, pp. 283
–291
.2.
Brockmeier, U., 1987, “Numerisches Verfahren zur Berechnung dreidimensionaler Stro¨mungs- und Temperaturfelder in Kana¨len mit La¨ngswirbelerzeugern und Untersuchung von Wa¨rmeu¨bergang und Stro¨mungs-verlust,” Dissertation, Ruhr-Universita¨t Bochum, Germany.
3.
Drazin, P. G., and Reid, W. H., 1984, Hydrodynamic Stability, Cambridge University Press, United Kingdom.
4.
Edwards, F. J., and Alker, G. J. R., 1974, “The Improvement of Forced Convection Surface Heat Transfer Using Surface Profusions in the Form of (a) Cubes and (b) Vortex Generators,” Proceedings of the Fifth International Heat Transfer Conference, Tokyo, Vol. 2, pp. 2244–2248.
5.
Eibeck, P. A., and Eaton, J. K., 1987. “Heat Transfer Effects of Streamwise Vorticas Embedded in Turbulent Boundary Layer,” Stanford University Report MD-51, Department of Mechanical Engineering.
6.
Fiebig
M.
Brockmeier
U.
Mitra
N. K.
Gu¨ntermann
T.
1989
“Structure of Velocity and Temperature Fields in Laminar Channel Flows With Longitudinal Vortex Generators
,” Numerical Heat Transfer
, Part A, Vol. 15
, pp. 281
–302
.7.
Fiebig, M., Mitra, N. K., and Dong, Yu., 1990, “Simultaneous Heat Transfer Enhancement and Flow Loss Reduction on Fin-Tube,” Proc. 9 Int. Heat Transfer Conference, Jerusalem, Hemisphere Press, Vol. 4, pp. 51–56.
8.
Fiebig
M.
Kallweit
P.
Mitra
N. K.
Tiggelback
S.
1991
, “Heat Generators in Channel Flow
,” Experimental Thermal and Fluid Science
, Vol. 4
, pp. 103
–114
.9.
Fiebig
M.
Valencia
A.
Mitra
N. K.
1993
, “Wing-Type Vortex Generators for Fin-and-Tube Heat Exchangers
,” Experimental Thermal and Fluid Science
, Vol. 7
, pp. 287
–295
.10.
Fiebig
M.
Valencia
A.
Mitra
N. K.
1994
, “Local Heat Transfer and Flow Losses in Fin-and-Tube Heat Exchangers With Vortex Generators: A Comparison of Round and Flat Tubes
,” Experimental Thermal and Fluid Science
, Vol. 8
, pp. 35
–45
.11.
Ghaddar
N. K.
Korczak
K. Z.
Mikic
B. B.
Patera
A. T.
1986
, “Numerical Investigation of Incompressible Flow in Grooved Channels, Part 1, Stability and Self-Sustained Oscillations
,” J. Fluid Mech.
, Vol. 163
, pp. 99
–127
.12.
Gu¨ntermann, Th., 1992, “Dreidimensionale stationa¨re und selbsterregtsch-wingende Stro¨rnungs-und Temperaturfelder in Hochleistungs-Wa¨rmeu¨bertragern mit Wirbelerzeugern,” Dissertation, Ruhr-Universita¨t Bochum, Germany.
13.
Hirt, C. W., Nichols, B. D., and Romero, N. C., 1975, “SOLA—A Numerical Algorithm for Transient Fluid Flow,” Los Alamos Scientific Laboratory Report LA-5652.
14.
Kays, W. M., and London, A. L., 1984, Compact Heat Exchangers, 3rd ed., New York: McGraw-Hill.
15.
Mitra, N. K., Bastani, A., and Fiebig, M., 1991, “Numerical Simulation of Periodically Fully Developed Flow Between Fins of a Compact Fin-Tube Heat Exchanger,” in: Advances in Heat Exchanger Design, Radiation and Combustion—1991, ASME HTD-Vol. 182, pp. 37–42.
16.
Russel, C. M. B., Jones, T. V., and Lee, G. H., 1982, “Heat Transfer Enhancement Using Vortex Generators,” Proceedings of the Seventh International Heat Transfer Conference, Munich, Vol. 3, pp. 283–288.
17.
Tiggelbeck, St., Mitra, N. K., and Fiebig, M., 1994, “Comparison of Wing-Type Vortex Generators for Heat Transfer Enhancement in Channel Flows,” to appear in ASME JOURNAL OF HEAT TRANSFER.
18.
Turk, A. J., and Junkhan, G. H., 1986, “Heat Transfer Enhancement Downstream of Vortex Generators on a Flat Plate,” Proceedings of the Eighth International Heat Transfer Conference, San Francisco, Vol. 6, pp. 2903–2908.
19.
Zhang, Z., Mitra, N. K., and Fiebig, M., 1991, “Vortex Breakdown and Its Effect on Heat Transfer in Flows Between Parallel Plates,” Proceedings of Heat Transfer in Single Phase Flows, Eurotherm Seminar 9, 1989, published by EN-TROPIE, Cretail, France, pp. 29–32.
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