Abstract
Conjugate convective-conductive heat transfer in a rectangular region with forced flow and a heat source is simulated numerically. Distributions of the thermal and hydrodynamic characteristics of the flow regimes studied are obtained. The evolution of the process analyzed is shown.
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A. V. Lykov, A. A. Aleksashenko, and V. A. Aleksashenko, Conjugate Problems of Convective Heat Transfer [in Russian], Nauka Tekhnika, Minsk (1971).
A. Liaqat and A. Baytas, “Conjugate natural convection in a square enclosure containing volumetric sources,” Int. J. Heat Mass Transfer, 44, No. 17, 3273–3280 (2001).
O. Aydin, “Conjugate heat transfer analysis of double pane windows,” Build. Environ., 41, No. 2, 109–116 (2006).
H. Yapici, G. Basturk, and B. Albayrak, “Numerical study on conjugate heat transfer in laminar fully developed flow with temperature dependent thermal properties through an externally heated SiC/SiC composite pipe and thermally induced stress,” Energ. Conv. Manage., 46, No. 4, 633–654 (2005).
A. A. Merrikh and J. L. Lage, “Natural convection in an enclosure with disconnected and conducting solid blocks,” Int. J. Heat Mass Transfer, 48, No. 7, 1361–1372 (2005).
O. Polat and E. Bilgen, “Conjugate heat transfer in inclined open shallow cavities,” Int. J. Heat Mass Transfer, 46, No. 9, 1563–1573 (2003).
Qi-Hong Deng and Guang-Fa Tang, “Numerical visualization of mass and heat transport for conjugate natural convection/heat conduction by streamline and heatline,” Int. J. Heat Mass Transfer, 45, No. 11, 2373–2385 (2002).
J. R. Lee and M. Y. Ha, “A numerical study of natural convection in a horizontal enclosure with a conducting body,” Int. J. Heat Mass Transfer, 48, No. 16, 3308–3318 (2005).
Shehua Huang and Chung-Hwan Chun, “A numerical study of turbulent flow and conjugate heat transfer in concentric annuli with moving inner rod,” Int. J. Heat Mass Transfer, 46, No. 19, 3707–3716 (2003).
A. G. Fedorov and R. Viskanta, “Three-dimensional conjugate heat transfer in the microchannel heat sink for electronic packaging,” Int. J. Heat Mass Transfer, 43, No. 3, 399–415 (2000).
P. Rajesh Kanna and Manab Kumar Das, “Conjugate forced convection heat transfer from a flat plate by laminar plane wall jet flow,” Int. J. Heat Mass Transfer, 48, No. 14, 2896–2910 (2005).
B. Abourida and M. Hasnaoui, “Numerical study of partitions effect on multiplicity of solutions in an infinite channel periodically heated from below,” Energ. Conv. Manage., 46, No. 17, 2697–2717 (2005).
M. El Alami, M. Najam, E. Semma, et al., “Electronic components cooling by natural convection in horizontal channel with slots,” Energ. Conv. Manage., 46, No. 17, 2762–2772 (2005).
Y. Jaluria, Natural Convection: Heat and Mass Transfer, Pergamon Press (1980).
Yu. A. Sokovishin and O. G. Martyneneko, Introduction to the Theory of Free Convective Heat Transfer [in Russian], Izd. Leningrad. Univ., Leningrad (1982).
A. V. Lykov, Theory of Heat Conduction [in Russian], Vysshaya Shkola, Moscow (1967).
V. M. Paskonov, V. I. Polezhaev, and L. A. Chudov, Numerical Simulation of Heat and Mass Transfer [in Russian], Nauka, Moscow (1984).
A. A. Samarskii, Theory of Difference Schemes [in Russian], Nauka, Moscow (1977).
E. L. Tarunin, Computational Experiment in Free-Convection Problems [in Russian], Izd. Irkutsk. Univ., Irkutsk (1990).
G. de. Vahl Davis, “Natural convection of air in a square cavity: A bench numerical solution,” Int. J. Numer. Methods Fluids, 3, No. 3, 249–264 (1983).
D. A. Kaminski and C. Prakash, “Conjugate natural convection in a square enclosure effect of conduction on one of the vertical walls,” Int. J. Heat Mass Transfer, 29, No. 12, 1979–1988 (1986).
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Translated from Prikladnaya Mekhanika i Tekhnicheskaya Fizika, Vol. 49, No. 6, pp. 69–81, November–December, 2008
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Kuznetsov, G.V., Sheremet, M.A. Mathematical simulation of conjugate mixed convection in a rectangular region with a heat source. J Appl Mech Tech Phy 49, 946–956 (2008). https://doi.org/10.1007/s10808-008-0117-0
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DOI: https://doi.org/10.1007/s10808-008-0117-0