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Numerical Heat Transfer, Part A: Applications
An International Journal of Computation and Methodology
Volume 27, 1995 - Issue 6
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Original Articles

THREE-DIMENSIONAL NATURAL CONVECTION OF AIR IN AN INCLINED CUBIC CAVITY

T. L. Lee Department of Mechanical Engineering, National Chiao Tung University, Hsinchu, Taiwan, Republic of China
&
T. F. Lin Department of Mechanical Engineering, National Chiao Tung University, Hsinchu, Taiwan, Republic of China
Pages 681-703 | Received 14 Dec 1993, Accepted 28 Oct 1994, Published online: 29 Oct 2007

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Kamel Milani Shirvan, Soroush Mirzakhanlari, Ali J. Chamkha & Mojtaba Mamourian. (2016) Numerical simulation and sensitivity analysis of effective parameters on natural convection and entropy generation in a wavy surface cavity filled with a nanofluid using RSM. Numerical Heat Transfer, Part A: Applications 70:10, pages 1157-1177.
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Abhishek Kumar Singh, S. Roy & Tanmay Basak. (2012) Visualization of Heat Transport during Natural Convection in a Tilted Square Cavity: Effect of Isothermal and Nonisothermal Heating. Numerical Heat Transfer, Part A: Applications 61:6, pages 417-441.
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Shihe Xin & Patrick Le Quéré. (2006) Natural-Convection Flows in Air-Filled, Differentially Heated Cavities with Adiabatic Horizontal Walls. Numerical Heat Transfer, Part A: Applications 50:5, pages 437-466.
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Articles from other publishers (20)

Youssef Hilali & Oussama Bourihane. (2022) Transition of thermally induced flow in a square cavity using an iterative predictor–corrector meshfree approach. ZAMM - Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik 103:3.
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Tanathep Leungtongkum, Onrawee Laguerre, Denis Flick, Alain Denis, Steven Duret & Nattawut Chaomuang. (2023) Experimental investigation of airflow and heat transfer by natural convection in an insulated box with a Phase Change Material using a Particle Image Velocimetry technique. Journal of Food Engineering 336, pages 111207.
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Akhil Dass & Sateesh Gedupudi. (2021) Numerical investigation on the heat transfer coefficient jump in tilted single-phase natural circulation loop and coupled natural circulation loop. International Communications in Heat and Mass Transfer 120, pages 104920.
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Hermes Ferialdi, Marcello Lappa & Christopher Haughey. (2020) On the role of thermal boundary conditions in typical problems of buoyancy convection: A combined experimental-numerical analysis. International Journal of Heat and Mass Transfer 159, pages 120012.
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Xiaolong Shi, Pouriya Jaryani, Ali Amiri, Alireza Rahimi & Emad Hasani Malekshah. (2019) Heat transfer and nanofluid flow of free convection in a quarter cylinder channel considering nanoparticle shape effect. Powder Technology 346, pages 160-170.
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Alireza Rahimi, Ali Dehghan Saee, Alireza Baghban, Abbas Kasaeipoor, Hojjat Ashrafi & Emad Hasani Malekshah. (2018) Double-MRT lattice Boltzmann simulation of natural convection in a C-shaped heat exchanger. Powder Technology 336, pages 465-480.
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Hooman Enayati, Abhilash J. Chandy, Minel J. Braun & Nicholas Horning. (2017) 3D large eddy simulation (LES) calculations and experiments of natural convection in a laterally-heated cylindrical enclosure for crystal growth. International Journal of Thermal Sciences 116, pages 1-21.
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V. I. Terekhov & A. L. Ekaid. (2015) Turbulent natural convection inside a parallelepiped with heating of two opposite vertical walls. High Temperature 53:3, pages 396-405.
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A. Baïri, E. Zarco-Pernia & J.-M. García de María. (2014) A review on natural convection in enclosures for engineering applications. The particular case of the parallelogrammic diode cavity. Applied Thermal Engineering 63:1, pages 304-322.
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D. Cooper, T.J. Craft, K. Esteifi & H. Iacovides. (2012) Experimental investigation of buoyant flows in inclined differentially heated cavities. International Journal of Heat and Mass Transfer 55:23-24, pages 6321-6339.
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Abhishek Kumar Singh, S. Roy & Tanmay Basak. (2012) Analysis of Bejan’s heatlines on visualization of heat flow and thermal mixing in tilted square cavities. International Journal of Heat and Mass Transfer 55:11-12, pages 2965-2983.
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Eiyad Abu-Nada & Hakan F. Oztop. (2009) Effects of inclination angle on natural convection in enclosures filled with Cu–water nanofluid. International Journal of Heat and Fluid Flow 30:4, pages 669-678.
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A. Baïri. (2008) Nusselt–Rayleigh correlations for design of industrial elements: Experimental and numerical investigation of natural convection in tilted square air filled enclosures. Energy Conversion and Management 49:4, pages 771-782.
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D.G. Blinov, A.A. Avramenko, N.M. Fialko, V.G. Prokopov, Yu.V. Sherenkovskii & V.L. Yurchuk. (2007) Transformation of independent variables of problem for increasing the POD method efficiency. International Communications in Heat and Mass Transfer 34:4, pages 432-439.
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A. Baïri, N. Laraqi & J.M. García de María. (2007) Numerical and experimental study of natural convection in tilted parallelepipedic cavities for large Rayleigh numbers. Experimental Thermal and Fluid Science 31:4, pages 309-324.
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Walid Chakroun. (2004) Effect of Boundary Wall Conditions on Heat Transfer for Fully Opened Tilted Cavity. Journal of Heat Transfer 126:6, pages 915-923.
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Ramón L Frederick & Fernando Quiroz. (2001) On the transition from conduction to convection regime in a cubical enclosure with a partially heated wall. International Journal of Heat and Mass Transfer 44:9, pages 1699-1709.
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Y.T. Ker, Y.H. Li & T.F. Lin. (1998) Experimental study of unsteady thermal characteristics and rotation induced stabilization of air convection in a bottom heated rotating vertical cylinder. International Journal of Heat and Mass Transfer 41:11, pages 1445-1458.
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Y.T. Ker & T.F. Lin. (1997) Time-averaged and reverse transition in oscillatory air convection in a differentially heated rotating cubic cavity. International Journal of Heat and Mass Transfer 40:14, pages 3335-3349.
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Y.T. Ker & T.F. Lin. (1996) A combined numerical and experimental study of air convection in a differentially heated rotating cubic cavity. International Journal of Heat and Mass Transfer 39:15, pages 3193-3210.
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