Natural Convection and Radiation in a Square Enclosure

Yücel, Adnan; Acharya, Sumanta; Williams, Mark L.

doi:10.1080/10407788908944688

Cited by 133 publications

(53 citation statements)

References 7 publications

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“…Later, Lauriat [11,12] used the P − 1 differential approximation to represent radiative heat transfer in narrow vertical cavities. Yücel et al [13] used the discrete ordinates method to study combined natural convection and radiation heat transfer from a scattering medium in a square enclosure. Since, the interaction between natural convection and radiation with or without participating media in the case of an undivided cavity has been studied by many researchers [14][15][16][17][18].…”

Section: Introductionmentioning

confidence: 99%

Radiation—natural convection heat transfer in an inclined rectangular enclosure

Bouali¹,

Mezrhab²,

Amaoui³

et al. 2006

International Journal of Thermal Sciences

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Section: Introductionmentioning

confidence: 99%

Radiation—natural convection heat transfer in an inclined rectangular enclosure

Bouali¹,

Mezrhab²,

Amaoui³

et al. 2006

International Journal of Thermal Sciences

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“…The numerical estimations of Eqs. (11) and (13) are transferred to the FLUENT solver using UDFs. This is one global iteration to update the flow field, temperature, and radiative intensities.…”

Section: Formulations and Numerical Proceduresmentioning

confidence: 99%

“…The interaction of thermal radiation with buoyancy-driven flow has been examined by many researchers [9][10][11]. The P1 method and the discrete ordinates method (DOM) were used successfully to solve the RTE coupled with the SIMPLER algorithm [12] for a two-dimensional square enclosure by Yü cel et al [13]. The finite-volume method (FVM) was applied to a two-dimensional square enclosure with partitions, and the radiation effects were carefully examined [14].…”

Section: Introductionmentioning

confidence: 99%

Extension of the Discrete Ordinates Interpolation Method to Combined Convection-Radiation Problems with Fluid Flow in Three-Dimensional Geometries Filled with Gray Participating Media

Kim

Song

2011

Numerical Heat Transfer, Part B: Fundamentals

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Combined convection-radiation problems in gray absorbing/emitting/scattering media are investigated numerically. The discrete ordinates interpolation method (DOIM) is incorporated into commercial software (FLUENT) using userdefined functions (UDFs). As preliminary tests, combined conduction/natural convection-radiation problems in a rectangular geometry are solved to validate the accuracy. The original DOIM is modified to solve the radiative heat transfer in an irregular geometry with internal obstacles. Then the combined turbulent forced convection-radiation problem is solved, and the radiation effects are discussed through the profiles of velocity and temperature. Fine agreement with other reference solutions is found. The DOIM promises reliable accuracy and excellent versatility for incorporation into fluid flow codes. Further computational issues are also discussed.

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“…Webb [10] conducted experiments to validate the numerical results obtained for buoyance-driven flow coupled by radiation boundary conditions. In addition to the research done on semi-infinite flat plates, the interaction between natural convection and radiation was also studied with other geometry configurations, such as square enclosures by Yucel et al [11], and Akiyama and Chong [12], and vertical channels by Sparrow et al [13].…”

Section: Introductionmentioning

confidence: 98%