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TECHNICAL PAPERS: Forced Convection

Convective Heat Transfer Near One-Dimensional and Two-Dimensional Wall Temperature Steps

[+] Author and Article Information
Debjit Mukerji, John K. Eaton, Robert J. Moffat

Department of Mechanical Engineering, Thermosciences Division, Stanford University, Stanford, CA 94305-3030

J. Heat Transfer 126(2), 202-210 (May 04, 2004) (9 pages) doi:10.1115/1.1650387 History: Received February 20, 2003; Revised November 20, 2003; Online May 04, 2004
Copyright © 2004 by ASME
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References

Reynolds, W. C., Kays, W. M., and Kline, S. J., 1958, “Heat Transfer in the Turbulent Incompressible Boundary Layer—Step Wall Temperature Boundary Conditions,” NASA Memo 12-2-58W, Washington, D.C.
Reynolds, W. C., Kays, W. M., and Kline, S. J., 1958, “Heat Transfer in the Turbulent Incompressible Boundary Layer—Arbitrary Wall Temperature and Heat Flux,” NASA Memo 12-3-58W, Washington, D.C.
Taylor,  R. P., Love,  P. H., Coleman,  H. W., and Hosni,  M. H., 1990, “Heat Transfer Measurements in Incompressible Turbulent Flat Plate Boundary Layers With Step Wall Temperature Boundary Conditions,” ASME J. Heat Transfer, 112, pp. 245–247.
Taylor,  R. P., Hosni,  M. H., Garner,  J. W., and Coleman,  H. W., 1992, “Rough-Wall Turbulent Heat Transfer With Step-Wall Temperature Boundary Conditions,” J. Thermophys. Heat Transfer, 6, pp. 84–90.
Saetran, L. R., 1989, “Turbulent Boundary Layer With a Step in the Wall Temperature,” Forum on Turbulent Flows-ASME Fluids Eng. Div. Publ. FED, 76 , pp. 107–114.
Browne,  L. W. B., and Antonia,  R. A., 1979, “Calculation of a Turbulent Boundary Layer Downstream of a Step Change in Surface Temperature,” ASME J. Heat Transfer, 101, pp. 144–150.
Kestin,  J., and Persen,  L. N., 1962, “The Transfer of Heat Across a Turbulent Boundary Layer at Very High Prandtl Numbers,” Int. J. Heat Mass Transfer, 5, pp. 355–371.
Antonia,  R. A., Danh,  H. Q., and Prabhu,  A., 1977, “Response of a Turbulent Boundary Layer to a Step Change in Heat Flux,” J. Fluid Mech., 80, part 1, pp. 153–177.
Subramanian,  C. S., and Antonia,  R. A., 1981, “Response of a Turbulent Boundary Layer to a Sudden Decrease in Wall Heat Flux,” Int. J. Heat Mass Transfer, 24, pp. 1641–1647.
Teitel,  M., and Antonia,  R. A., 1993, “A Step Change in Wall Heat Flux in a Turbulent Channel Flow,” Int. J. Heat Mass Transfer, 36, pp. 1707–1709.
Elkins,  C. J., and Eaton,  J. K., 2000, “Turbulent Heat and Momentum Transport on a Rotating Disk,” J. Fluid Mech., 402, pp. 225–253.
Kays, W. M., and Crawford, M. E., 1993, Convective Heat and Mass Transfer, 3rd ed., McGraw Hill Book Co., Inc.
Batchelder,  K. A., and Eaton,  J. K., 2001, “Practical Experience With the Discrete Green’s Function Approach to Convective Heat Transfer,” ASME J. Heat Transfer, 123, pp. 70–76.
Batchelder, K. A., and Moffat, R. J., 1997, “Towards a Method for Measuring Heat Transfer in Complex 3-D Flows,” Ph.D. thesis, Department of Mechanical Engineering, Stanford University, Stanford, CA.

Figures

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Rectangular and square calorimeter components prior to assembly
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Calorimeter layout and instrumentation
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Calorimeter experiment thermal boundary conditions
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TLC-indicated temperature step over calorimeter
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Baseline heat transfer data under low turbulence conditions with rectangular calorimeter
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Baseline heat transfer data under low turbulence conditions with square calorimeter
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Comparison of heat transfer with wall temperature step change, Reξ=5.0×105
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Comparison of heat transfer with wall temperature step change, Reξ=1.25×106
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Comparison of heat transfer with wall temperature step change, Reξ=5.0×106

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