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TECHNICAL PAPERS: Radiative Transfer

Comparison of Monte Carlo Surface Exchange With Radiative Continuum Results in Large Particle Dispersions

[+] Author and Article Information
E. Nisipeanu, P. D. Jones

Mechanical Engineering Department, Auburn University, Auburn University, AL 36849-5341

J. Heat Transfer 122(3), 503-508 (Feb 14, 2000) (6 pages) doi:10.1115/1.1287727 History: Received April 20, 1998; Revised February 14, 2000
Copyright © 2000 by ASME
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References

Vortmeyer, D., 1978, “Radiation in Packed Solids,” Proceedings, 6th International Heat Transfer Conference (Toronto), Vol. 6, Hemisphere, Washington, DC, pp. 525–539.
Chan,  C. K., and Tien,  C. L., 1974, “Radiative Transfer in Packed Spheres,” ASME J. Heat Transfer, 96, pp. 52–58.
Kudo, K., Yang, W. J., Taniguchi, H., and Hayasaka, H., 1987, “Radiative Heat Transfer in Packed Spheres by Monte Carlo Method,” Heat Transfer in High Technology and Power Engineering, Hemisphere, New York, pp. 529–540.
Tien,  C. L., 1988, “Thermal Radiation in Packed and Fluidized Beds,” ASME J. Heat Transfer, 110, No. 4(B), pp. 1230–1242.
Yang,  Y. S., Howell,  J. R., and Klein,  D. E., 1983, “Radiative Heat Transfer Through a Randomly Packed Bed of Spheres by the Monte Carlo Method,” ASME J. Heat Transfer, 105, No. 2, pp325–332.
Chen,  J. C., and Churchill,  S. W., 1963, “Radiant Heat Transfer in Packed Beds,” AIChE. J., 9, pp. 35–41.
Singh,  B. P., and Kaviany,  M., 1991, “Independent Theory Versus Direct Simulation of Radiation Heat Transfer in Packed Beds,” Int. J. Heat Mass Transf., 34, No. 11, pp. 2869–2882.
Palmer,  B. J., Drost,  M. K., and Welty,  J. R., 1996, “Comparison of Equation of Transfer With Simulations on Large Arrays of Cylindrical Reflector Elements,” Numer. Heat Transfer, Part B, 30, No. 3, pp. 271–289.
Modest, M. F., 1993, Radiative Heat Transfer, McGraw-Hill, New York.
Kamiuto,  K., 1990, “Correlated Radiative Transfer in Packed-Sphere Systems,” J. Quant. Spectrosc. Radiat. Transf., 43, No. 1, pp. 39–43.
Howell,  J. R., 1988, “Thermal Radiation in Participating Media: The Past, the Present, and Some Possible Futures,” ASME J. Heat Transfer, 110, No. 4(B), pp. 1220–1229.

Figures

Grahic Jump Location
Two-dimensional view of the particle suspension computational field
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Directional distribution of the dimensionless radiative flux in two cases: energy bundles released from the bottom; and from the top boundary, respectively
Grahic Jump Location
Comparison of Monte Carlo solutions for discontinuous and continuous models (independent scattering theory) at different porosities—the diffuse case
Grahic Jump Location
Comparison of Monte Carlo solutions for discontinuous and continuous models (independent scattering theory) at different porosities—the specular case
Grahic Jump Location
Comparison of Monte Carlo solutions for discontinuous and continuous models for different particle radiative properties—the diffuse case
Grahic Jump Location
Comparison of Monte Carlo solutions for discontinuous and continuous models for different particle radiative properties—the specular case
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Comparison with Singh and Kaviany model

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