Analytical Modeling of Natural Convection in a Tall Rectangular Enclosure with Multiple Disconnected Partitions |
Bae, Youngmin
(Korea Atomic Energy Research Institute)
Kim, Seong Hoon (Korea Atomic Energy Research Institute) Seo, Jae-Kwang (Korea Atomic Energy Research Institute) Kim, Young In (Korea Atomic Energy Research Institute) |
1 | R. Anderson, A. Bejan, Heat transfer through single and double vertical walls in natural convection: theory and experiment, Int. J. Heat Mass Transfer 24 (1981) 1611-1620. DOI |
2 | T. Nishimura, M. Shiraishi, F. Nagasawa, Y. Kawamura, Natural convection heat transfer in enclosures with multiple vertical partitions, Int. J. Heat Mass Transfer 31 (1988) 1679-1686. DOI |
3 | H. Turkoglu, N. Yucel, Natural convection heat transfer in enclosures with conducting multiple partitions and side walls, Heat Mass Transfer 32 (1996) 1-8. DOI |
4 | V. Sambou, B. Lartigue, F. Monchoux, J.L. Breton, Onedimensional model of natural convection in differentially heated partitioned enclosures with conducting external walls and vertical partitions, J. Thermal Sci. Eng. Appl. 1 (2009) 021002. DOI |
5 | T.W. Tong, F.M. Gerner, Natural convection in partitioned air-filled rectangular enclosures, Int. Commun. Heat Mass Transfer 13 (1986) 99-108. DOI |
6 | C.J. Ho, Y.L. Yih, Conjugate natural convection heat transfer in an air-filled rectangular cavity, Int. Commun. Heat Mass Transfer 14 (1987) 91-100. DOI |
7 | A. Kangni, R. Ben Yedder, E. Bilgen, Natural convection and conduction in enclosures with multiple vertical partitions, Int. J. Heat Mass Transfer 34 (1991) 2819-2825. DOI |
8 | E. Bilgen, Natural convection in enclosures with partial partitions, Renewable Energy 26 (2002) 257-270. DOI |
9 | V. Costa, M. Oliveira, A. Sousa, Mixed laminar free convective flows in enclosures with arrays of partial partitions - a numerical study, Proceedings of HT2003, ASME Summer Heat Transfer Conference, Nevada, USA, 2003. |
10 | S.H. Kim, Y.I. Kim, C.T. Park, S. Choi, J. Yoon, Effect of gaps on the performance of the vertically installed wet thermal insulator, Proceedings of the 2012 International Congress on Advances in Nuclear Power Plants (ICAPP '12), Chicago, USA, 2012. |
11 | S.V. Patankar, Numerical Heat Transfer and Fluid Flow, Hemisphere Publishing Corp., New York, 1980. |
12 | M.M. Finckenor, D. Dooling, Multilayer Insulation Material Guidelines, NASA/TP-1999-209263, 1999. |
13 | Y. Bae, S.H. Kim, J.K. Seo, Y.I. Kim, Numerical analysis of thermal development of laminar flow in a concentric multilayer annulus, Chem. Eng. Technol. 37 (2014) 123-130. DOI |
14 | R.D. Blevins, Applied Fluid Dynamics Handbook, Van Nostrand-Reinhold, New York, 1984. |
15 | ANSYS Inc, Fluent 12.0 Theory Guide, 2009. |