Both low- and high-Reynolds-number versions of the stress- model of Wilcox (Turbulence Modeling for CFD, 2nd ed., DCW Industries, Inc.) were used to predict velocity and heat transfer data in a high-heat-flux cylindrical tube for which fluid properties varied strongly with temperature. The results indicate that for accurate heat transfer calculations under the conditions considered in this study, inclusion of low-Reynolds-number viscous corrections to the model are essential. The failure of the high-Reynolds-number model to accurately predict the wall temperature was attributed to an overprediction of the near-wall velocity.
Issue Section:
Technical Briefs
1.
Wilcox
, D. W.
, 1998, Turbulence Modeling for CFD
, 2nd ed., DCW Industries, Inc.
, La Cañada, CA
.2.
Takase
, K.
, Hino
, R.
, and Miyamoto
, Y.
, 1990, “Thermal and Hydraulic Tests of Standard Fuel Rod of HTTR With HENDEL
,” J. At. Energy Soc. Jpn.
, 32
(11
), pp. 1107
–1110
.3.
Perkins
, K. R.
, 1975, “Turbulence Structure in Gas Flows Laminarizing by Heating
,” Ph.D. dissertation, University of Arizona.4.
Shehata
, A. M.
, 1984, “Mean Turbulence Structure in Strongly Heated Air Flows
,” Ph.D. dissertation, University of Arizona.5.
Shehata
, A. M.
, and McEligot
, D. M.
, 1995, “Turbulence Structure in the Viscous Layer of Strongly Heated Gas Flows
,” Tech. Report No. INEL-95/0223, Idaho National Engineering Laboratory.6.
Shehata
, A. M.
, and McEligot
, D. M.
, 1998, “Mean Turbulence Structure in the Viscous Layer of Strongly-Heated Internal Gas Flows: Measurements
,” Int. J. Heat Mass Transfer
0017-9310, 41
, pp. 4297
–4313
.7.
Mikielewicz
, D. P.
, Shehata
, A. M.
, Jackson
, J. D.
, and McEligot
, D. M.
, 2002, “Temperature, Velocity and Mean Turbulence Structure in Strongly Heated Gas Flows, Comparison of Numerical Predictions With Data
,” Int. J. Heat Mass Transfer
0017-9310, 45
, 4333
–4352
.8.
Launder
, B.
, and Sharma
, B.
, 1974, “Application of Energy-Dissipation Model of Turbulence to the Calculation of Flow Near a Spinning Disk
,” Lett. Heat Mass Transfer
0094-4548, 1
, pp. 131
–138
.9.
Spall
, R. E.
, Richards
, A.
, and McEligot
, D. M.
, 2004, “An Assessment of k−ω and v2−f Turbulence Models for Strongly Heated Internal Gas Flows
,” Numer. Heat Transfer, Part A
1040-7782, 46
, pp. 831
–849
.10.
Fluent, Inc., Lebanon, NH.
11.
Launder
, B. E.
, Reece
, G. J.
, and Rodi
, W.
, 1975, “Progress in the Development of a Reynolds-Stress Turbulence Closure
,” J. Fluid Mech.
0022-1120, 68
, pp. 537
–566
.12.
Kader
, B. A.
, and Yaglom
, A. M.
, 1972, “Heat and Mass Transfer Laws for Fully Turbulent Wall Flows
,” Int. J. Heat Mass Transfer
0017-9310, 12
, pp. 2239
–2351
.Copyright © 2007
by American Society of Mechanical Engineers
You do not currently have access to this content.