Design Formulas for Oscillatory Heat Transport in Open-Ended Tubes

Masao Furukawa

doi:10.1115/1.1597615

Journal of Heat Transfer | Volume 125 | Issue 6 | TECHNICAL NOTES

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TECHNICAL NOTES

Design Formulas for Oscillatory Heat Transport in Open-Ended Tubes

Masao Furukawa, Leader

[+] Author and Article Information

Masao Furukawa

Thermal Engineering Group, NASDA (Japanese Space Agency), Tsukuba Space Center, Tsukuba, Ibaraki 305-8505, Japan

J. Heat Transfer 125(6), 1183-1186 (Nov 19, 2003) (4 pages) doi:10.1115/1.1597615 History: Received July 12, 2002; Revised April 29, 2003; Online November 19, 2003

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References

Chatwin, P. C., 1975, “On the Longitudinal Dispersion of Passive Contaminant in Oscillating Flows in Tubes,” J. Fluid Mech., 71, pp. 513–527.

Watson, E. J., 1983, “Diffusion in Oscillatory Pipe Flow,” J. Fluid Mech., 133, pp. 233–244.

Joshi, C. H., Kamm, R. D., Drazen, J. M., and Slutsky, A. S., 1983, “An Experimental Study of Gas Exchange in Laminar Oscillatory Flow,” J. Fluid Mech., 133, pp. 245–254.

Kurzweg, U. H., and Jaeger, M. J., 1986, “Tuning Effect in Enhanced Gas Dispersion Under Oscillatory Conditions,” Phys. Fluids, 29(4), pp. 1324–1326.

Kurzweg, U. H., and Jaeger, M. J., 1987, “Diffusional Separation of Gases by Sinusoidal Oscillations,” Phys. Fluids, 30(4), pp. 1023–1025.

Zhang, J. G., Zegel, W. C., and Kurzweg, U. H., 1996, “Enhanced Axial Dispersion in Oscillating Pipe Flow With Different Solute Concentrations at its Ends,” ASME J. Fluids Eng., 118(1), pp. 160–165.

Kurzweg, U. H., and Zhao, L. D., 1984, “Heat Transfer by High-Frequency Oscillations: A New Hydrodynamic Technique for Achieving Large Effective Thermal Conductivities,” Phys. Fluids, 27(11), pp. 2624–2627.

Kurzweg, U. H., 1985, “Enhanced Heat Conduction in Fluids Subjected to Sinusoidal Oscillations,” ASME J. Heat Transfer, 107(2), pp. 459–462.

Zhang, J. G., and Kurzweg, U. H., 1991, “Numerical Simulation of Time-Dependent Heat Transfer in Oscillating Pipe Flow,” AIAA J. Thermophysics, 5(3), pp. 401–406.

Kaviany, M., 1990, “Performance of a Heat Exchanger Based on Enhanced Heat Diffusion in Fluids by Oscillation: Analysis,” ASME J. Heat Transfer, 112(1), pp. 49–55.

Kaviany, M., and Reckker, M., 1990, “Performance of a Heat Exchanger Based on Enhanced Heat Diffusion in Fluids by Oscillation: Experimental,” ASME J. Heat Transfer, 112(1), pp. 56–63.

Nishio, S., Shi, X. H., and Zhang, W. M., 1995, “Oscillation-Induced Heat Transport: Heat Transport Characteristics Along Liquid-Columns of Oscillation-Controlled Heat Transport Tubes,” Int. J. Heat Mass Transfer, 38(13), pp. 2457–2470.

Rocha, L. A. O., and Bejan, A., 2001, “Geometric Optimization of Periodic Flow and Heat Transfer in a Volume Cooled by Parallel Tubes,” ASME J. Heat Transfer, 123(2), pp. 233–239.

Katsuta, M., Nagata, K., Maruyama, Y., and Tsujimori, A., 1991, “Fundamental Characteristics of Heat Conduction Enhancement in Oscillatory Viscous Flow—Dream Pipe,” Proc. 3rd ASME/JSME Joint Thermal Engineering Conf., 3 , pp. 69–74.

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Furukawa M. Design Formulas for Oscillatory Heat Transport in Open-Ended Tubes. ASME. J. Heat Transfer. 2003;125(6):1183-1186. doi:10.1115/1.1597615.

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Design Formulas for Oscillatory Heat Transport in Open-Ended Tubes

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Specific tube bundle size versus frequency

Specific shaker driving power versus frequency

Modified dimensionless effective conductivity versus frequency

Displacement/Power factors versus logarithmic Womersley number

Enhancement factor versus logarithmic Womersley number

Dream pipe used heaterless liquid warming apparatus

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