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The paper presents an investigation of heat transfer mechanism from a rib-roughened plate to the flowing air, based on the measurements taken in a special small-size wind tunnel with a rectangular cross section flow channel. The heated ribbed wall was located at the channel bottom. The air flow, caused by a suction fan, was steady or pulsating ( the Reynolds number varied from 1000 to 11300). Advanced measurement techniques were used, such as schlieren video film, PIV and hot wire thermoanemometry (for simultaneous measurements of instantaneous velocity and temperature). They allowed to analyze the movement of vortices structure and to evaluate the coherence values of instantaneous temperature records made in the chosen points of the air flow.
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Czasopismo
Rocznik
Tom
Strony
31--54
Opis fizyczny
Bibliogr. 31 poz.,
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Bibliografia
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- [6] LIOU T. M., KAO C. W. AND CHEN S. H.: Flow field investigation of the effect of rib open area ratio in a rectangular duct, ASME J. Turbomachinery, 120(1998), 504-511.
- [7] YOKOSAWA H., FUJITA H. M., HIROTA M. AND IWATA S.: Measurements of turbulent flow in a square duct with roughened walls on two opposite sides, Int. J. Heat Fluid Flow, 10(1989), 125-130.
- [8] HIROTA M., YOKOSAWA H. AND FUJITA H. M.: Turbulence kinetic energy in turbulent flows trough square ducts with rib-roughened walls, Int. J. Heat Fluid Flow, 13(1992), 22-29.
- [9] LIOU T. M., Wu Y. Y. AND CHANG Y.: LDV Measurements of periodic fully developed main and secondary flows in a channel with rib-disturbed walls, ASME J. Fluid Eng., 115(1993), 109-114.
- [10] HIROTA M., FUJITA H. M. AND YOKOSAWA H.: Experimental study on convective heat transfer for turbulent flow in a square duct with a rib-roughened walls, ASME J. Heat Transfer, 116(1994), 332-340.
- [11] OLSSON C. O. AND SUNDEN B.: Experimental study of flow and heat transfer in rib- roughened rectangular channels, Experimental Thermal and Fluid Science, 16(1998) 349-365.
- [12] FODEMSKI T. R., VOKE P. AND COLLINS M. W.: Flow simulation in channels with distorted geometry using spectral code with co-ordinate transformation, Int. J. Num. Methods in Fluids, 7, 1987.
- [13] FODEMSKI T. R.: The simulation of flow and heat transfer in channels with a ribbed surface, Proc. of 2nd Int. Symp. on Transport Phenomena in Turbulent Flows, Tokyo, Japan, 1987.
- [14] FODEMSKI T. R.: Flow and heat transfer simulation for 2- and 3-dimensional smooth and ribbed channels, Proc. of 2nd U. K. National Heat Transfer Conf., Glasgow, U.K., 1988.
- [15] ACHARYA S., DUTTA S., MYRUM T. A. AND BAKER R. S.: Periodically developed flow and heat transfer in a ribbed duct, Int. J. Heat Mass Transfer, 36(1993) 2069- 2082.
- [16] LIOU T., HWANG J. AND CHEN S.: Simulation and measurement of enhanced turbulent heat transfer in a channel with periodic ribs on one principal wall, Int. J. Heat Mass Transfer, 36(1993), 507-517.
- [17] PRAKASH C. AND ZERKLE R.: Prediction of turbulent flow and heat transfer in a ribbed rectagular duct with and without rotation, ASME J. Turbomachinery, 117(1995), 255-264.
- [18] IACOVIDES H.: Computation of turbulent flow and heat transfer through rotating ribbed passages, Biennial Colloquium on Computational Fluid Dynamics, UMIST, 1996, 3-19, 3-24.
- [19] RIGBY D. L.: Prediction of heat and mass transfer in a rotating ribbed coolant passage with a 180 degree turn, ASME 1998, paper 98 GT-329.
- [20] COOPER W.L., NEE V. W. AND YANG K. T.: An Experimental investigation of convective heat transfer from the heated floor of a rectangular duct to a low frequency large tidal displacement oscillating flow, Int. J. Heat Mass Transfer, 37(1994), 581- 592.
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- [22] SUNDEN B.: Heat transfer and flow in rib-roughened rectangular ducts, [in:] Heat Transfer Enhancement of Heat Exchangers, NATO ASI Series, Serie E: Applied Sciences - Vol. 355, Kluwer Academic Publishers, Dordrecht/Boston/London 1999, 123-139.
- [23] VALUJEVA E. P. Popov B.N., ROMANOVA S. J.: Heat transfer in a cylindrical tube at a turbulent pulsating flow, Teplonergetika, 3(1994), 24-35, (in Russian).
- [24] GENIN L. G., KOVAL A. P., MANCZHA S. P., SVIRIDOV V. G.: Hydrodynamics and heat transfer at a pulsating flow in tubes, Teploenergetika, 5(1992), 30-34, (in Russian).
- [25] PARK J. S., TAYLOR M. F. AND ELIGOT D. M.: Heat transfer to pulsating turbulent gas flow, Proc. 7th Int. Heat Transfer Conf., 3(1982), 105-110.
- [26] WILLIAMS F. AND WATTS I.: The development of rough surfaces with improved heat transfer performance and a study of the mechanism involved, Proc. of the 4th Int. Heat Transfer Conf., Paris, 1970, paper FC 5.5, 1-11.
- [27] JAROSIŃSKI W.: Optical methods to study the mechanism of convective heat transfer from the heated wall of a rectangular duct to a steady or pulsating flow, Proc. of Int. Conf. on Optical Technology and Image Processing in Fluid, Thermal, and Combustion Flow (VSJ-SPIE'98), Yokohama, Japan 1998, paper AB 072.
- [28] JAROSIŃSKI W.: Experimental study of heat transfer from the heated rib-roughened wall to a steady or pulsating flow, SAE Technical Paper 2001-01-1249.
- [29] SAIDI A. AND SUNDEN B.: Numerical simulation of turbulent convective heat transfer in square ribbed ducts, Numerical Heat [30] Instruction Manual, Dual Channel Signal Analyzer Type 2034, Brel & Kjaer, 1983.
- [31] LENORT F., KROLIKOWSKI R.: A code for coherence calculations, ITS Report 3206/ZDO/2002, Warszawa 2002 (in Polish).
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Bibliografia
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bwmeta1.element.baztech-article-BGPK-0638-3082